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. 258b21eaf3SRobert Mustacchi * Copyright (c) 2011 Joyent, Inc. All rights reserved. 26633fc3a6SSebastien Roy * Copyright (c) 2014 by Delphix. All rights reserved. 27721fffe3SKacheong Poon */ 28721fffe3SKacheong Poon 29721fffe3SKacheong Poon /* This file contains all TCP input processing functions. */ 30721fffe3SKacheong Poon 31721fffe3SKacheong Poon #include <sys/types.h> 32721fffe3SKacheong Poon #include <sys/stream.h> 33721fffe3SKacheong Poon #include <sys/strsun.h> 34721fffe3SKacheong Poon #include <sys/strsubr.h> 35721fffe3SKacheong Poon #include <sys/stropts.h> 36721fffe3SKacheong Poon #include <sys/strlog.h> 37721fffe3SKacheong Poon #define _SUN_TPI_VERSION 2 38721fffe3SKacheong Poon #include <sys/tihdr.h> 39721fffe3SKacheong Poon #include <sys/suntpi.h> 40721fffe3SKacheong Poon #include <sys/xti_inet.h> 41721fffe3SKacheong Poon #include <sys/squeue_impl.h> 42721fffe3SKacheong Poon #include <sys/squeue.h> 43721fffe3SKacheong Poon #include <sys/tsol/tnet.h> 44721fffe3SKacheong Poon 45721fffe3SKacheong Poon #include <inet/common.h> 46721fffe3SKacheong Poon #include <inet/ip.h> 47721fffe3SKacheong Poon #include <inet/tcp.h> 48721fffe3SKacheong Poon #include <inet/tcp_impl.h> 49721fffe3SKacheong Poon #include <inet/tcp_cluster.h> 50721fffe3SKacheong Poon #include <inet/proto_set.h> 51721fffe3SKacheong Poon #include <inet/ipsec_impl.h> 52721fffe3SKacheong Poon 53721fffe3SKacheong Poon /* 54*1f183ba0SLauri Tirkkonen * RFC7323-recommended phrasing of TSTAMP option, for easier parsing 55721fffe3SKacheong Poon */ 56721fffe3SKacheong Poon 57721fffe3SKacheong Poon #ifdef _BIG_ENDIAN 58721fffe3SKacheong Poon #define TCPOPT_NOP_NOP_TSTAMP ((TCPOPT_NOP << 24) | (TCPOPT_NOP << 16) | \ 59721fffe3SKacheong Poon (TCPOPT_TSTAMP << 8) | 10) 60721fffe3SKacheong Poon #else 61721fffe3SKacheong Poon #define TCPOPT_NOP_NOP_TSTAMP ((10 << 24) | (TCPOPT_TSTAMP << 16) | \ 62721fffe3SKacheong Poon (TCPOPT_NOP << 8) | TCPOPT_NOP) 63721fffe3SKacheong Poon #endif 64721fffe3SKacheong Poon 65721fffe3SKacheong Poon /* 66721fffe3SKacheong Poon * PAWS needs a timer for 24 days. This is the number of ticks in 24 days 67721fffe3SKacheong Poon */ 68721fffe3SKacheong Poon #define PAWS_TIMEOUT ((clock_t)(24*24*60*60*hz)) 69721fffe3SKacheong Poon 70721fffe3SKacheong Poon /* 71721fffe3SKacheong Poon * Since tcp_listener is not cleared atomically with tcp_detached 72721fffe3SKacheong Poon * being cleared we need this extra bit to tell a detached connection 73721fffe3SKacheong Poon * apart from one that is in the process of being accepted. 74721fffe3SKacheong Poon */ 75721fffe3SKacheong Poon #define TCP_IS_DETACHED_NONEAGER(tcp) \ 76721fffe3SKacheong Poon (TCP_IS_DETACHED(tcp) && \ 77721fffe3SKacheong Poon (!(tcp)->tcp_hard_binding)) 78721fffe3SKacheong Poon 79721fffe3SKacheong Poon /* 80721fffe3SKacheong Poon * Steps to do when a tcp_t moves to TIME-WAIT state. 81721fffe3SKacheong Poon * 82721fffe3SKacheong Poon * This connection is done, we don't need to account for it. Decrement 83721fffe3SKacheong Poon * the listener connection counter if needed. 84721fffe3SKacheong Poon * 85721fffe3SKacheong Poon * Decrement the connection counter of the stack. Note that this counter 86721fffe3SKacheong Poon * is per CPU. So the total number of connections in a stack is the sum of all 87721fffe3SKacheong Poon * of them. Since there is no lock for handling all of them exclusively, the 88721fffe3SKacheong Poon * resulting sum is only an approximation. 89721fffe3SKacheong Poon * 90721fffe3SKacheong Poon * Unconditionally clear the exclusive binding bit so this TIME-WAIT 91721fffe3SKacheong Poon * connection won't interfere with new ones. 92721fffe3SKacheong Poon * 93721fffe3SKacheong Poon * Start the TIME-WAIT timer. If upper layer has not closed the connection, 94721fffe3SKacheong Poon * the timer is handled within the context of this tcp_t. When the timer 95721fffe3SKacheong Poon * fires, tcp_clean_death() is called. If upper layer closes the connection 96721fffe3SKacheong Poon * during this period, tcp_time_wait_append() will be called to add this 97721fffe3SKacheong Poon * tcp_t to the global TIME-WAIT list. Note that this means that the 98721fffe3SKacheong Poon * actual wait time in TIME-WAIT state will be longer than the 99721fffe3SKacheong Poon * tcps_time_wait_interval since the period before upper layer closes the 100721fffe3SKacheong Poon * connection is not accounted for when tcp_time_wait_append() is called. 101721fffe3SKacheong Poon * 102721fffe3SKacheong Poon * If uppser layer has closed the connection, call tcp_time_wait_append() 103721fffe3SKacheong Poon * directly. 104721fffe3SKacheong Poon * 105721fffe3SKacheong Poon */ 106721fffe3SKacheong Poon #define SET_TIME_WAIT(tcps, tcp, connp) \ 107721fffe3SKacheong Poon { \ 108721fffe3SKacheong Poon (tcp)->tcp_state = TCPS_TIME_WAIT; \ 109721fffe3SKacheong Poon if ((tcp)->tcp_listen_cnt != NULL) \ 110721fffe3SKacheong Poon TCP_DECR_LISTEN_CNT(tcp); \ 111721fffe3SKacheong Poon atomic_dec_64( \ 112721fffe3SKacheong Poon (uint64_t *)&(tcps)->tcps_sc[CPU->cpu_seqid]->tcp_sc_conn_cnt); \ 113721fffe3SKacheong Poon (connp)->conn_exclbind = 0; \ 114721fffe3SKacheong Poon if (!TCP_IS_DETACHED(tcp)) { \ 115721fffe3SKacheong Poon TCP_TIMER_RESTART(tcp, (tcps)->tcps_time_wait_interval); \ 116721fffe3SKacheong Poon } else { \ 117721fffe3SKacheong Poon tcp_time_wait_append(tcp); \ 118721fffe3SKacheong Poon TCP_DBGSTAT(tcps, tcp_rput_time_wait); \ 119721fffe3SKacheong Poon } \ 120721fffe3SKacheong Poon } 121721fffe3SKacheong Poon 122721fffe3SKacheong Poon /* 123721fffe3SKacheong Poon * If tcp_drop_ack_unsent_cnt is greater than 0, when TCP receives more 124721fffe3SKacheong Poon * than tcp_drop_ack_unsent_cnt number of ACKs which acknowledge unsent 125721fffe3SKacheong Poon * data, TCP will not respond with an ACK. RFC 793 requires that 126721fffe3SKacheong Poon * TCP responds with an ACK for such a bogus ACK. By not following 127721fffe3SKacheong Poon * the RFC, we prevent TCP from getting into an ACK storm if somehow 128721fffe3SKacheong Poon * an attacker successfully spoofs an acceptable segment to our 129721fffe3SKacheong Poon * peer; or when our peer is "confused." 130721fffe3SKacheong Poon */ 131721fffe3SKacheong Poon static uint32_t tcp_drop_ack_unsent_cnt = 10; 132721fffe3SKacheong Poon 133721fffe3SKacheong Poon /* 13432c3e7eeSKacheong Poon * To protect TCP against attacker using a small window and requesting 13532c3e7eeSKacheong Poon * large amount of data (DoS attack by conuming memory), TCP checks the 13632c3e7eeSKacheong Poon * window advertised in the last ACK of the 3-way handshake. TCP uses 13732c3e7eeSKacheong Poon * the tcp_mss (the size of one packet) value for comparion. The window 13832c3e7eeSKacheong Poon * should be larger than tcp_mss. But while a sane TCP should advertise 13932c3e7eeSKacheong Poon * a receive window larger than or equal to 4*MSS to avoid stop and go 14032c3e7eeSKacheong Poon * tarrfic, not all TCP stacks do that. This is especially true when 14132c3e7eeSKacheong Poon * tcp_mss is a big value. 14232c3e7eeSKacheong Poon * 14332c3e7eeSKacheong Poon * To work around this issue, an additional fixed value for comparison 14432c3e7eeSKacheong Poon * is also used. If the advertised window is smaller than both tcp_mss 14532c3e7eeSKacheong Poon * and tcp_init_wnd_chk, the ACK is considered as invalid. So for large 14632c3e7eeSKacheong Poon * tcp_mss value (say, 8K), a window larger than tcp_init_wnd_chk but 14732c3e7eeSKacheong Poon * smaller than 8K is considered to be OK. 148721fffe3SKacheong Poon */ 14932c3e7eeSKacheong Poon static uint32_t tcp_init_wnd_chk = 4096; 150721fffe3SKacheong Poon 151721fffe3SKacheong Poon /* Process ICMP source quench message or not. */ 152721fffe3SKacheong Poon static boolean_t tcp_icmp_source_quench = B_FALSE; 153721fffe3SKacheong Poon 154721fffe3SKacheong Poon static boolean_t tcp_outbound_squeue_switch = B_FALSE; 155721fffe3SKacheong Poon 156721fffe3SKacheong Poon static mblk_t *tcp_conn_create_v4(conn_t *, conn_t *, mblk_t *, 157721fffe3SKacheong Poon ip_recv_attr_t *); 158721fffe3SKacheong Poon static mblk_t *tcp_conn_create_v6(conn_t *, conn_t *, mblk_t *, 159721fffe3SKacheong Poon ip_recv_attr_t *); 160721fffe3SKacheong Poon static boolean_t tcp_drop_q0(tcp_t *); 161721fffe3SKacheong Poon static void tcp_icmp_error_ipv6(tcp_t *, mblk_t *, ip_recv_attr_t *); 162721fffe3SKacheong Poon static mblk_t *tcp_input_add_ancillary(tcp_t *, mblk_t *, ip_pkt_t *, 163721fffe3SKacheong Poon ip_recv_attr_t *); 164721fffe3SKacheong Poon static void tcp_input_listener(void *, mblk_t *, void *, ip_recv_attr_t *); 165721fffe3SKacheong Poon static void tcp_process_options(tcp_t *, tcpha_t *); 166721fffe3SKacheong Poon static mblk_t *tcp_reass(tcp_t *, mblk_t *, uint32_t); 167721fffe3SKacheong Poon static void tcp_reass_elim_overlap(tcp_t *, mblk_t *); 168721fffe3SKacheong Poon static void tcp_rsrv_input(void *, mblk_t *, void *, ip_recv_attr_t *); 169721fffe3SKacheong Poon static void tcp_set_rto(tcp_t *, time_t); 170721fffe3SKacheong Poon static void tcp_setcred_data(mblk_t *, ip_recv_attr_t *); 171721fffe3SKacheong Poon 172721fffe3SKacheong Poon /* 173721fffe3SKacheong Poon * Set the MSS associated with a particular tcp based on its current value, 174721fffe3SKacheong Poon * and a new one passed in. Observe minimums and maximums, and reset other 175721fffe3SKacheong Poon * state variables that we want to view as multiples of MSS. 176721fffe3SKacheong Poon * 177721fffe3SKacheong Poon * The value of MSS could be either increased or descreased. 178721fffe3SKacheong Poon */ 179721fffe3SKacheong Poon void 180721fffe3SKacheong Poon tcp_mss_set(tcp_t *tcp, uint32_t mss) 181721fffe3SKacheong Poon { 182721fffe3SKacheong Poon uint32_t mss_max; 183721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps; 184721fffe3SKacheong Poon conn_t *connp = tcp->tcp_connp; 185721fffe3SKacheong Poon 186721fffe3SKacheong Poon if (connp->conn_ipversion == IPV4_VERSION) 187721fffe3SKacheong Poon mss_max = tcps->tcps_mss_max_ipv4; 188721fffe3SKacheong Poon else 189721fffe3SKacheong Poon mss_max = tcps->tcps_mss_max_ipv6; 190721fffe3SKacheong Poon 191721fffe3SKacheong Poon if (mss < tcps->tcps_mss_min) 192721fffe3SKacheong Poon mss = tcps->tcps_mss_min; 193721fffe3SKacheong Poon if (mss > mss_max) 194721fffe3SKacheong Poon mss = mss_max; 195721fffe3SKacheong Poon /* 196721fffe3SKacheong Poon * Unless naglim has been set by our client to 197721fffe3SKacheong Poon * a non-mss value, force naglim to track mss. 198721fffe3SKacheong Poon * This can help to aggregate small writes. 199721fffe3SKacheong Poon */ 200721fffe3SKacheong Poon if (mss < tcp->tcp_naglim || tcp->tcp_mss == tcp->tcp_naglim) 201721fffe3SKacheong Poon tcp->tcp_naglim = mss; 202721fffe3SKacheong Poon /* 203721fffe3SKacheong Poon * TCP should be able to buffer at least 4 MSS data for obvious 204721fffe3SKacheong Poon * performance reason. 205721fffe3SKacheong Poon */ 206721fffe3SKacheong Poon if ((mss << 2) > connp->conn_sndbuf) 207721fffe3SKacheong Poon connp->conn_sndbuf = mss << 2; 208721fffe3SKacheong Poon 209721fffe3SKacheong Poon /* 210721fffe3SKacheong Poon * Set the send lowater to at least twice of MSS. 211721fffe3SKacheong Poon */ 212721fffe3SKacheong Poon if ((mss << 1) > connp->conn_sndlowat) 213721fffe3SKacheong Poon connp->conn_sndlowat = mss << 1; 214721fffe3SKacheong Poon 215721fffe3SKacheong Poon /* 216721fffe3SKacheong Poon * Update tcp_cwnd according to the new value of MSS. Keep the 217721fffe3SKacheong Poon * previous ratio to preserve the transmit rate. 218721fffe3SKacheong Poon */ 219721fffe3SKacheong Poon tcp->tcp_cwnd = (tcp->tcp_cwnd / tcp->tcp_mss) * mss; 220721fffe3SKacheong Poon tcp->tcp_cwnd_cnt = 0; 221721fffe3SKacheong Poon 222721fffe3SKacheong Poon tcp->tcp_mss = mss; 223721fffe3SKacheong Poon (void) tcp_maxpsz_set(tcp, B_TRUE); 224721fffe3SKacheong Poon } 225721fffe3SKacheong Poon 226721fffe3SKacheong Poon /* 227721fffe3SKacheong Poon * Extract option values from a tcp header. We put any found values into the 228721fffe3SKacheong Poon * tcpopt struct and return a bitmask saying which options were found. 229721fffe3SKacheong Poon */ 230*1f183ba0SLauri Tirkkonen int 231721fffe3SKacheong Poon tcp_parse_options(tcpha_t *tcpha, tcp_opt_t *tcpopt) 232721fffe3SKacheong Poon { 233721fffe3SKacheong Poon uchar_t *endp; 234721fffe3SKacheong Poon int len; 235721fffe3SKacheong Poon uint32_t mss; 236721fffe3SKacheong Poon uchar_t *up = (uchar_t *)tcpha; 237721fffe3SKacheong Poon int found = 0; 238721fffe3SKacheong Poon int32_t sack_len; 239721fffe3SKacheong Poon tcp_seq sack_begin, sack_end; 240721fffe3SKacheong Poon tcp_t *tcp; 241721fffe3SKacheong Poon 242721fffe3SKacheong Poon endp = up + TCP_HDR_LENGTH(tcpha); 243721fffe3SKacheong Poon up += TCP_MIN_HEADER_LENGTH; 244*1f183ba0SLauri Tirkkonen /* 245*1f183ba0SLauri Tirkkonen * If timestamp option is aligned as recommended in RFC 7323 Appendix 246*1f183ba0SLauri Tirkkonen * A, and is the only option, return quickly. 247*1f183ba0SLauri Tirkkonen */ 248*1f183ba0SLauri Tirkkonen if (TCP_HDR_LENGTH(tcpha) == (uint32_t)TCP_MIN_HEADER_LENGTH + 249*1f183ba0SLauri Tirkkonen TCPOPT_REAL_TS_LEN && 250*1f183ba0SLauri Tirkkonen OK_32PTR(up) && 251*1f183ba0SLauri Tirkkonen *(uint32_t *)up == TCPOPT_NOP_NOP_TSTAMP) { 252*1f183ba0SLauri Tirkkonen tcpopt->tcp_opt_ts_val = ABE32_TO_U32((up+4)); 253*1f183ba0SLauri Tirkkonen tcpopt->tcp_opt_ts_ecr = ABE32_TO_U32((up+8)); 254*1f183ba0SLauri Tirkkonen 255*1f183ba0SLauri Tirkkonen return (TCP_OPT_TSTAMP_PRESENT); 256*1f183ba0SLauri Tirkkonen } 257721fffe3SKacheong Poon while (up < endp) { 258721fffe3SKacheong Poon len = endp - up; 259721fffe3SKacheong Poon switch (*up) { 260721fffe3SKacheong Poon case TCPOPT_EOL: 261721fffe3SKacheong Poon break; 262721fffe3SKacheong Poon 263721fffe3SKacheong Poon case TCPOPT_NOP: 264721fffe3SKacheong Poon up++; 265721fffe3SKacheong Poon continue; 266721fffe3SKacheong Poon 267721fffe3SKacheong Poon case TCPOPT_MAXSEG: 268721fffe3SKacheong Poon if (len < TCPOPT_MAXSEG_LEN || 269721fffe3SKacheong Poon up[1] != TCPOPT_MAXSEG_LEN) 270721fffe3SKacheong Poon break; 271721fffe3SKacheong Poon 272721fffe3SKacheong Poon mss = BE16_TO_U16(up+2); 273721fffe3SKacheong Poon /* Caller must handle tcp_mss_min and tcp_mss_max_* */ 274721fffe3SKacheong Poon tcpopt->tcp_opt_mss = mss; 275721fffe3SKacheong Poon found |= TCP_OPT_MSS_PRESENT; 276721fffe3SKacheong Poon 277721fffe3SKacheong Poon up += TCPOPT_MAXSEG_LEN; 278721fffe3SKacheong Poon continue; 279721fffe3SKacheong Poon 280721fffe3SKacheong Poon case TCPOPT_WSCALE: 281721fffe3SKacheong Poon if (len < TCPOPT_WS_LEN || up[1] != TCPOPT_WS_LEN) 282721fffe3SKacheong Poon break; 283721fffe3SKacheong Poon 284721fffe3SKacheong Poon if (up[2] > TCP_MAX_WINSHIFT) 285721fffe3SKacheong Poon tcpopt->tcp_opt_wscale = TCP_MAX_WINSHIFT; 286721fffe3SKacheong Poon else 287721fffe3SKacheong Poon tcpopt->tcp_opt_wscale = up[2]; 288721fffe3SKacheong Poon found |= TCP_OPT_WSCALE_PRESENT; 289721fffe3SKacheong Poon 290721fffe3SKacheong Poon up += TCPOPT_WS_LEN; 291721fffe3SKacheong Poon continue; 292721fffe3SKacheong Poon 293721fffe3SKacheong Poon case TCPOPT_SACK_PERMITTED: 294721fffe3SKacheong Poon if (len < TCPOPT_SACK_OK_LEN || 295721fffe3SKacheong Poon up[1] != TCPOPT_SACK_OK_LEN) 296721fffe3SKacheong Poon break; 297721fffe3SKacheong Poon found |= TCP_OPT_SACK_OK_PRESENT; 298721fffe3SKacheong Poon up += TCPOPT_SACK_OK_LEN; 299721fffe3SKacheong Poon continue; 300721fffe3SKacheong Poon 301721fffe3SKacheong Poon case TCPOPT_SACK: 302721fffe3SKacheong Poon if (len <= 2 || up[1] <= 2 || len < up[1]) 303721fffe3SKacheong Poon break; 304721fffe3SKacheong Poon 305721fffe3SKacheong Poon /* If TCP is not interested in SACK blks... */ 306721fffe3SKacheong Poon if ((tcp = tcpopt->tcp) == NULL) { 307721fffe3SKacheong Poon up += up[1]; 308721fffe3SKacheong Poon continue; 309721fffe3SKacheong Poon } 310721fffe3SKacheong Poon sack_len = up[1] - TCPOPT_HEADER_LEN; 311721fffe3SKacheong Poon up += TCPOPT_HEADER_LEN; 312721fffe3SKacheong Poon 313721fffe3SKacheong Poon /* 314721fffe3SKacheong Poon * If the list is empty, allocate one and assume 315721fffe3SKacheong Poon * nothing is sack'ed. 316721fffe3SKacheong Poon */ 317721fffe3SKacheong Poon if (tcp->tcp_notsack_list == NULL) { 318721fffe3SKacheong Poon tcp_notsack_update(&(tcp->tcp_notsack_list), 319721fffe3SKacheong Poon tcp->tcp_suna, tcp->tcp_snxt, 320721fffe3SKacheong Poon &(tcp->tcp_num_notsack_blk), 321721fffe3SKacheong Poon &(tcp->tcp_cnt_notsack_list)); 322721fffe3SKacheong Poon 323721fffe3SKacheong Poon /* 324721fffe3SKacheong Poon * Make sure tcp_notsack_list is not NULL. 325721fffe3SKacheong Poon * This happens when kmem_alloc(KM_NOSLEEP) 326721fffe3SKacheong Poon * returns NULL. 327721fffe3SKacheong Poon */ 328721fffe3SKacheong Poon if (tcp->tcp_notsack_list == NULL) { 329721fffe3SKacheong Poon up += sack_len; 330721fffe3SKacheong Poon continue; 331721fffe3SKacheong Poon } 332721fffe3SKacheong Poon tcp->tcp_fack = tcp->tcp_suna; 333721fffe3SKacheong Poon } 334721fffe3SKacheong Poon 335721fffe3SKacheong Poon while (sack_len > 0) { 336721fffe3SKacheong Poon if (up + 8 > endp) { 337721fffe3SKacheong Poon up = endp; 338721fffe3SKacheong Poon break; 339721fffe3SKacheong Poon } 340721fffe3SKacheong Poon sack_begin = BE32_TO_U32(up); 341721fffe3SKacheong Poon up += 4; 342721fffe3SKacheong Poon sack_end = BE32_TO_U32(up); 343721fffe3SKacheong Poon up += 4; 344721fffe3SKacheong Poon sack_len -= 8; 345721fffe3SKacheong Poon /* 346721fffe3SKacheong Poon * Bounds checking. Make sure the SACK 347721fffe3SKacheong Poon * info is within tcp_suna and tcp_snxt. 348721fffe3SKacheong Poon * If this SACK blk is out of bound, ignore 349721fffe3SKacheong Poon * it but continue to parse the following 350721fffe3SKacheong Poon * blks. 351721fffe3SKacheong Poon */ 352721fffe3SKacheong Poon if (SEQ_LEQ(sack_end, sack_begin) || 353721fffe3SKacheong Poon SEQ_LT(sack_begin, tcp->tcp_suna) || 354721fffe3SKacheong Poon SEQ_GT(sack_end, tcp->tcp_snxt)) { 355721fffe3SKacheong Poon continue; 356721fffe3SKacheong Poon } 357721fffe3SKacheong Poon tcp_notsack_insert(&(tcp->tcp_notsack_list), 358721fffe3SKacheong Poon sack_begin, sack_end, 359721fffe3SKacheong Poon &(tcp->tcp_num_notsack_blk), 360721fffe3SKacheong Poon &(tcp->tcp_cnt_notsack_list)); 361721fffe3SKacheong Poon if (SEQ_GT(sack_end, tcp->tcp_fack)) { 362721fffe3SKacheong Poon tcp->tcp_fack = sack_end; 363721fffe3SKacheong Poon } 364721fffe3SKacheong Poon } 365721fffe3SKacheong Poon found |= TCP_OPT_SACK_PRESENT; 366721fffe3SKacheong Poon continue; 367721fffe3SKacheong Poon 368721fffe3SKacheong Poon case TCPOPT_TSTAMP: 369721fffe3SKacheong Poon if (len < TCPOPT_TSTAMP_LEN || 370721fffe3SKacheong Poon up[1] != TCPOPT_TSTAMP_LEN) 371721fffe3SKacheong Poon break; 372721fffe3SKacheong Poon 373721fffe3SKacheong Poon tcpopt->tcp_opt_ts_val = BE32_TO_U32(up+2); 374721fffe3SKacheong Poon tcpopt->tcp_opt_ts_ecr = BE32_TO_U32(up+6); 375721fffe3SKacheong Poon 376721fffe3SKacheong Poon found |= TCP_OPT_TSTAMP_PRESENT; 377721fffe3SKacheong Poon 378721fffe3SKacheong Poon up += TCPOPT_TSTAMP_LEN; 379721fffe3SKacheong Poon continue; 380721fffe3SKacheong Poon 381721fffe3SKacheong Poon default: 382721fffe3SKacheong Poon if (len <= 1 || len < (int)up[1] || up[1] == 0) 383721fffe3SKacheong Poon break; 384721fffe3SKacheong Poon up += up[1]; 385721fffe3SKacheong Poon continue; 386721fffe3SKacheong Poon } 387721fffe3SKacheong Poon break; 388721fffe3SKacheong Poon } 389721fffe3SKacheong Poon return (found); 390721fffe3SKacheong Poon } 391721fffe3SKacheong Poon 392721fffe3SKacheong Poon /* 393721fffe3SKacheong Poon * Process all TCP option in SYN segment. Note that this function should 394721fffe3SKacheong Poon * be called after tcp_set_destination() is called so that the necessary info 395721fffe3SKacheong Poon * from IRE is already set in the tcp structure. 396721fffe3SKacheong Poon * 397721fffe3SKacheong Poon * This function sets up the correct tcp_mss value according to the 398721fffe3SKacheong Poon * MSS option value and our header size. It also sets up the window scale 399721fffe3SKacheong Poon * and timestamp values, and initialize SACK info blocks. But it does not 400721fffe3SKacheong Poon * change receive window size after setting the tcp_mss value. The caller 401721fffe3SKacheong Poon * should do the appropriate change. 402721fffe3SKacheong Poon */ 403721fffe3SKacheong Poon static void 404721fffe3SKacheong Poon tcp_process_options(tcp_t *tcp, tcpha_t *tcpha) 405721fffe3SKacheong Poon { 406721fffe3SKacheong Poon int options; 407721fffe3SKacheong Poon tcp_opt_t tcpopt; 408721fffe3SKacheong Poon uint32_t mss_max; 409721fffe3SKacheong Poon char *tmp_tcph; 410721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps; 411721fffe3SKacheong Poon conn_t *connp = tcp->tcp_connp; 412721fffe3SKacheong Poon 413721fffe3SKacheong Poon tcpopt.tcp = NULL; 414721fffe3SKacheong Poon options = tcp_parse_options(tcpha, &tcpopt); 415721fffe3SKacheong Poon 416721fffe3SKacheong Poon /* 417721fffe3SKacheong Poon * Process MSS option. Note that MSS option value does not account 418721fffe3SKacheong Poon * for IP or TCP options. This means that it is equal to MTU - minimum 419721fffe3SKacheong Poon * IP+TCP header size, which is 40 bytes for IPv4 and 60 bytes for 420721fffe3SKacheong Poon * IPv6. 421721fffe3SKacheong Poon */ 422721fffe3SKacheong Poon if (!(options & TCP_OPT_MSS_PRESENT)) { 423721fffe3SKacheong Poon if (connp->conn_ipversion == IPV4_VERSION) 424721fffe3SKacheong Poon tcpopt.tcp_opt_mss = tcps->tcps_mss_def_ipv4; 425721fffe3SKacheong Poon else 426721fffe3SKacheong Poon tcpopt.tcp_opt_mss = tcps->tcps_mss_def_ipv6; 427721fffe3SKacheong Poon } else { 428721fffe3SKacheong Poon if (connp->conn_ipversion == IPV4_VERSION) 429721fffe3SKacheong Poon mss_max = tcps->tcps_mss_max_ipv4; 430721fffe3SKacheong Poon else 431721fffe3SKacheong Poon mss_max = tcps->tcps_mss_max_ipv6; 432721fffe3SKacheong Poon if (tcpopt.tcp_opt_mss < tcps->tcps_mss_min) 433721fffe3SKacheong Poon tcpopt.tcp_opt_mss = tcps->tcps_mss_min; 434721fffe3SKacheong Poon else if (tcpopt.tcp_opt_mss > mss_max) 435721fffe3SKacheong Poon tcpopt.tcp_opt_mss = mss_max; 436721fffe3SKacheong Poon } 437721fffe3SKacheong Poon 438721fffe3SKacheong Poon /* Process Window Scale option. */ 439721fffe3SKacheong Poon if (options & TCP_OPT_WSCALE_PRESENT) { 440721fffe3SKacheong Poon tcp->tcp_snd_ws = tcpopt.tcp_opt_wscale; 441721fffe3SKacheong Poon tcp->tcp_snd_ws_ok = B_TRUE; 442721fffe3SKacheong Poon } else { 443721fffe3SKacheong Poon tcp->tcp_snd_ws = B_FALSE; 444721fffe3SKacheong Poon tcp->tcp_snd_ws_ok = B_FALSE; 445721fffe3SKacheong Poon tcp->tcp_rcv_ws = B_FALSE; 446721fffe3SKacheong Poon } 447721fffe3SKacheong Poon 448721fffe3SKacheong Poon /* Process Timestamp option. */ 449721fffe3SKacheong Poon if ((options & TCP_OPT_TSTAMP_PRESENT) && 450721fffe3SKacheong Poon (tcp->tcp_snd_ts_ok || TCP_IS_DETACHED(tcp))) { 451721fffe3SKacheong Poon tmp_tcph = (char *)tcp->tcp_tcpha; 452721fffe3SKacheong Poon 453721fffe3SKacheong Poon tcp->tcp_snd_ts_ok = B_TRUE; 454721fffe3SKacheong Poon tcp->tcp_ts_recent = tcpopt.tcp_opt_ts_val; 455721fffe3SKacheong Poon tcp->tcp_last_rcv_lbolt = ddi_get_lbolt64(); 456721fffe3SKacheong Poon ASSERT(OK_32PTR(tmp_tcph)); 457721fffe3SKacheong Poon ASSERT(connp->conn_ht_ulp_len == TCP_MIN_HEADER_LENGTH); 458721fffe3SKacheong Poon 459721fffe3SKacheong Poon /* Fill in our template header with basic timestamp option. */ 460721fffe3SKacheong Poon tmp_tcph += connp->conn_ht_ulp_len; 461721fffe3SKacheong Poon tmp_tcph[0] = TCPOPT_NOP; 462721fffe3SKacheong Poon tmp_tcph[1] = TCPOPT_NOP; 463721fffe3SKacheong Poon tmp_tcph[2] = TCPOPT_TSTAMP; 464721fffe3SKacheong Poon tmp_tcph[3] = TCPOPT_TSTAMP_LEN; 465721fffe3SKacheong Poon connp->conn_ht_iphc_len += TCPOPT_REAL_TS_LEN; 466721fffe3SKacheong Poon connp->conn_ht_ulp_len += TCPOPT_REAL_TS_LEN; 467721fffe3SKacheong Poon tcp->tcp_tcpha->tha_offset_and_reserved += (3 << 4); 468721fffe3SKacheong Poon } else { 469721fffe3SKacheong Poon tcp->tcp_snd_ts_ok = B_FALSE; 470721fffe3SKacheong Poon } 471721fffe3SKacheong Poon 472721fffe3SKacheong Poon /* 473721fffe3SKacheong Poon * Process SACK options. If SACK is enabled for this connection, 474721fffe3SKacheong Poon * then allocate the SACK info structure. Note the following ways 475721fffe3SKacheong Poon * when tcp_snd_sack_ok is set to true. 476721fffe3SKacheong Poon * 477721fffe3SKacheong Poon * For active connection: in tcp_set_destination() called in 478721fffe3SKacheong Poon * tcp_connect(). 479721fffe3SKacheong Poon * 480721fffe3SKacheong Poon * For passive connection: in tcp_set_destination() called in 481721fffe3SKacheong Poon * tcp_input_listener(). 482721fffe3SKacheong Poon * 483721fffe3SKacheong Poon * That's the reason why the extra TCP_IS_DETACHED() check is there. 484721fffe3SKacheong Poon * That check makes sure that if we did not send a SACK OK option, 485721fffe3SKacheong Poon * we will not enable SACK for this connection even though the other 486721fffe3SKacheong Poon * side sends us SACK OK option. For active connection, the SACK 487721fffe3SKacheong Poon * info structure has already been allocated. So we need to free 488721fffe3SKacheong Poon * it if SACK is disabled. 489721fffe3SKacheong Poon */ 490721fffe3SKacheong Poon if ((options & TCP_OPT_SACK_OK_PRESENT) && 491721fffe3SKacheong Poon (tcp->tcp_snd_sack_ok || 492721fffe3SKacheong Poon (tcps->tcps_sack_permitted != 0 && TCP_IS_DETACHED(tcp)))) { 49366cd0f60SKacheong Poon ASSERT(tcp->tcp_num_sack_blk == 0); 49466cd0f60SKacheong Poon ASSERT(tcp->tcp_notsack_list == NULL); 49566cd0f60SKacheong Poon 496721fffe3SKacheong Poon tcp->tcp_snd_sack_ok = B_TRUE; 497721fffe3SKacheong Poon if (tcp->tcp_snd_ts_ok) { 498721fffe3SKacheong Poon tcp->tcp_max_sack_blk = 3; 499721fffe3SKacheong Poon } else { 500721fffe3SKacheong Poon tcp->tcp_max_sack_blk = 4; 501721fffe3SKacheong Poon } 50266cd0f60SKacheong Poon } else if (tcp->tcp_snd_sack_ok) { 503721fffe3SKacheong Poon /* 504721fffe3SKacheong Poon * Resetting tcp_snd_sack_ok to B_FALSE so that 505721fffe3SKacheong Poon * no SACK info will be used for this 506721fffe3SKacheong Poon * connection. This assumes that SACK usage 507721fffe3SKacheong Poon * permission is negotiated. This may need 508721fffe3SKacheong Poon * to be changed once this is clarified. 509721fffe3SKacheong Poon */ 51066cd0f60SKacheong Poon ASSERT(tcp->tcp_num_sack_blk == 0); 511721fffe3SKacheong Poon ASSERT(tcp->tcp_notsack_list == NULL); 512721fffe3SKacheong Poon tcp->tcp_snd_sack_ok = B_FALSE; 513721fffe3SKacheong Poon } 514721fffe3SKacheong Poon 515721fffe3SKacheong Poon /* 516721fffe3SKacheong Poon * Now we know the exact TCP/IP header length, subtract 517721fffe3SKacheong Poon * that from tcp_mss to get our side's MSS. 518721fffe3SKacheong Poon */ 519721fffe3SKacheong Poon tcp->tcp_mss -= connp->conn_ht_iphc_len; 520721fffe3SKacheong Poon 521721fffe3SKacheong Poon /* 522721fffe3SKacheong Poon * Here we assume that the other side's header size will be equal to 523721fffe3SKacheong Poon * our header size. We calculate the real MSS accordingly. Need to 524721fffe3SKacheong Poon * take into additional stuffs IPsec puts in. 525721fffe3SKacheong Poon * 526721fffe3SKacheong Poon * Real MSS = Opt.MSS - (our TCP/IP header - min TCP/IP header) 527721fffe3SKacheong Poon */ 528721fffe3SKacheong Poon tcpopt.tcp_opt_mss -= connp->conn_ht_iphc_len + 529721fffe3SKacheong Poon tcp->tcp_ipsec_overhead - 530721fffe3SKacheong Poon ((connp->conn_ipversion == IPV4_VERSION ? 531721fffe3SKacheong Poon IP_SIMPLE_HDR_LENGTH : IPV6_HDR_LEN) + TCP_MIN_HEADER_LENGTH); 532721fffe3SKacheong Poon 533721fffe3SKacheong Poon /* 534721fffe3SKacheong Poon * Set MSS to the smaller one of both ends of the connection. 535721fffe3SKacheong Poon * We should not have called tcp_mss_set() before, but our 536721fffe3SKacheong Poon * side of the MSS should have been set to a proper value 537721fffe3SKacheong Poon * by tcp_set_destination(). tcp_mss_set() will also set up the 538721fffe3SKacheong Poon * STREAM head parameters properly. 539721fffe3SKacheong Poon * 540721fffe3SKacheong Poon * If we have a larger-than-16-bit window but the other side 541721fffe3SKacheong Poon * didn't want to do window scale, tcp_rwnd_set() will take 542721fffe3SKacheong Poon * care of that. 543721fffe3SKacheong Poon */ 544721fffe3SKacheong Poon tcp_mss_set(tcp, MIN(tcpopt.tcp_opt_mss, tcp->tcp_mss)); 545721fffe3SKacheong Poon 546721fffe3SKacheong Poon /* 547721fffe3SKacheong Poon * Initialize tcp_cwnd value. After tcp_mss_set(), tcp_mss has been 548721fffe3SKacheong Poon * updated properly. 549721fffe3SKacheong Poon */ 550721fffe3SKacheong Poon TCP_SET_INIT_CWND(tcp, tcp->tcp_mss, tcps->tcps_slow_start_initial); 551721fffe3SKacheong Poon } 552721fffe3SKacheong Poon 553721fffe3SKacheong Poon /* 554721fffe3SKacheong Poon * Add a new piece to the tcp reassembly queue. If the gap at the beginning 555721fffe3SKacheong Poon * is filled, return as much as we can. The message passed in may be 556721fffe3SKacheong Poon * multi-part, chained using b_cont. "start" is the starting sequence 557721fffe3SKacheong Poon * number for this piece. 558721fffe3SKacheong Poon */ 559721fffe3SKacheong Poon static mblk_t * 560721fffe3SKacheong Poon tcp_reass(tcp_t *tcp, mblk_t *mp, uint32_t start) 561721fffe3SKacheong Poon { 562721fffe3SKacheong Poon uint32_t end; 563721fffe3SKacheong Poon mblk_t *mp1; 564721fffe3SKacheong Poon mblk_t *mp2; 565721fffe3SKacheong Poon mblk_t *next_mp; 566721fffe3SKacheong Poon uint32_t u1; 567721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps; 568721fffe3SKacheong Poon 569721fffe3SKacheong Poon 570721fffe3SKacheong Poon /* Walk through all the new pieces. */ 571721fffe3SKacheong Poon do { 572721fffe3SKacheong Poon ASSERT((uintptr_t)(mp->b_wptr - mp->b_rptr) <= 573721fffe3SKacheong Poon (uintptr_t)INT_MAX); 574721fffe3SKacheong Poon end = start + (int)(mp->b_wptr - mp->b_rptr); 575721fffe3SKacheong Poon next_mp = mp->b_cont; 576721fffe3SKacheong Poon if (start == end) { 577721fffe3SKacheong Poon /* Empty. Blast it. */ 578721fffe3SKacheong Poon freeb(mp); 579721fffe3SKacheong Poon continue; 580721fffe3SKacheong Poon } 581721fffe3SKacheong Poon mp->b_cont = NULL; 582721fffe3SKacheong Poon TCP_REASS_SET_SEQ(mp, start); 583721fffe3SKacheong Poon TCP_REASS_SET_END(mp, end); 584721fffe3SKacheong Poon mp1 = tcp->tcp_reass_tail; 585721fffe3SKacheong Poon if (!mp1) { 586721fffe3SKacheong Poon tcp->tcp_reass_tail = mp; 587721fffe3SKacheong Poon tcp->tcp_reass_head = mp; 588721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInDataUnorderSegs); 589721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpInDataUnorderBytes, 590721fffe3SKacheong Poon end - start); 591721fffe3SKacheong Poon continue; 592721fffe3SKacheong Poon } 593721fffe3SKacheong Poon /* New stuff completely beyond tail? */ 594721fffe3SKacheong Poon if (SEQ_GEQ(start, TCP_REASS_END(mp1))) { 595721fffe3SKacheong Poon /* Link it on end. */ 596721fffe3SKacheong Poon mp1->b_cont = mp; 597721fffe3SKacheong Poon tcp->tcp_reass_tail = mp; 598721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInDataUnorderSegs); 599721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpInDataUnorderBytes, 600721fffe3SKacheong Poon end - start); 601721fffe3SKacheong Poon continue; 602721fffe3SKacheong Poon } 603721fffe3SKacheong Poon mp1 = tcp->tcp_reass_head; 604721fffe3SKacheong Poon u1 = TCP_REASS_SEQ(mp1); 605721fffe3SKacheong Poon /* New stuff at the front? */ 606721fffe3SKacheong Poon if (SEQ_LT(start, u1)) { 607721fffe3SKacheong Poon /* Yes... Check for overlap. */ 608721fffe3SKacheong Poon mp->b_cont = mp1; 609721fffe3SKacheong Poon tcp->tcp_reass_head = mp; 610721fffe3SKacheong Poon tcp_reass_elim_overlap(tcp, mp); 611721fffe3SKacheong Poon continue; 612721fffe3SKacheong Poon } 613721fffe3SKacheong Poon /* 614721fffe3SKacheong Poon * The new piece fits somewhere between the head and tail. 615721fffe3SKacheong Poon * We find our slot, where mp1 precedes us and mp2 trails. 616721fffe3SKacheong Poon */ 617721fffe3SKacheong Poon for (; (mp2 = mp1->b_cont) != NULL; mp1 = mp2) { 618721fffe3SKacheong Poon u1 = TCP_REASS_SEQ(mp2); 619721fffe3SKacheong Poon if (SEQ_LEQ(start, u1)) 620721fffe3SKacheong Poon break; 621721fffe3SKacheong Poon } 622721fffe3SKacheong Poon /* Link ourselves in */ 623721fffe3SKacheong Poon mp->b_cont = mp2; 624721fffe3SKacheong Poon mp1->b_cont = mp; 625721fffe3SKacheong Poon 626721fffe3SKacheong Poon /* Trim overlap with following mblk(s) first */ 627721fffe3SKacheong Poon tcp_reass_elim_overlap(tcp, mp); 628721fffe3SKacheong Poon 629721fffe3SKacheong Poon /* Trim overlap with preceding mblk */ 630721fffe3SKacheong Poon tcp_reass_elim_overlap(tcp, mp1); 631721fffe3SKacheong Poon 632721fffe3SKacheong Poon } while (start = end, mp = next_mp); 633721fffe3SKacheong Poon mp1 = tcp->tcp_reass_head; 634721fffe3SKacheong Poon /* Anything ready to go? */ 635721fffe3SKacheong Poon if (TCP_REASS_SEQ(mp1) != tcp->tcp_rnxt) 636721fffe3SKacheong Poon return (NULL); 637721fffe3SKacheong Poon /* Eat what we can off the queue */ 638721fffe3SKacheong Poon for (;;) { 639721fffe3SKacheong Poon mp = mp1->b_cont; 640721fffe3SKacheong Poon end = TCP_REASS_END(mp1); 641721fffe3SKacheong Poon TCP_REASS_SET_SEQ(mp1, 0); 642721fffe3SKacheong Poon TCP_REASS_SET_END(mp1, 0); 643721fffe3SKacheong Poon if (!mp) { 644721fffe3SKacheong Poon tcp->tcp_reass_tail = NULL; 645721fffe3SKacheong Poon break; 646721fffe3SKacheong Poon } 647721fffe3SKacheong Poon if (end != TCP_REASS_SEQ(mp)) { 648721fffe3SKacheong Poon mp1->b_cont = NULL; 649721fffe3SKacheong Poon break; 650721fffe3SKacheong Poon } 651721fffe3SKacheong Poon mp1 = mp; 652721fffe3SKacheong Poon } 653721fffe3SKacheong Poon mp1 = tcp->tcp_reass_head; 654721fffe3SKacheong Poon tcp->tcp_reass_head = mp; 655721fffe3SKacheong Poon return (mp1); 656721fffe3SKacheong Poon } 657721fffe3SKacheong Poon 658721fffe3SKacheong Poon /* Eliminate any overlap that mp may have over later mblks */ 659721fffe3SKacheong Poon static void 660721fffe3SKacheong Poon tcp_reass_elim_overlap(tcp_t *tcp, mblk_t *mp) 661721fffe3SKacheong Poon { 662721fffe3SKacheong Poon uint32_t end; 663721fffe3SKacheong Poon mblk_t *mp1; 664721fffe3SKacheong Poon uint32_t u1; 665721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps; 666721fffe3SKacheong Poon 667721fffe3SKacheong Poon end = TCP_REASS_END(mp); 668721fffe3SKacheong Poon while ((mp1 = mp->b_cont) != NULL) { 669721fffe3SKacheong Poon u1 = TCP_REASS_SEQ(mp1); 670721fffe3SKacheong Poon if (!SEQ_GT(end, u1)) 671721fffe3SKacheong Poon break; 672721fffe3SKacheong Poon if (!SEQ_GEQ(end, TCP_REASS_END(mp1))) { 673721fffe3SKacheong Poon mp->b_wptr -= end - u1; 674721fffe3SKacheong Poon TCP_REASS_SET_END(mp, u1); 675721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInDataPartDupSegs); 676721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpInDataPartDupBytes, 677721fffe3SKacheong Poon end - u1); 678721fffe3SKacheong Poon break; 679721fffe3SKacheong Poon } 680721fffe3SKacheong Poon mp->b_cont = mp1->b_cont; 681721fffe3SKacheong Poon TCP_REASS_SET_SEQ(mp1, 0); 682721fffe3SKacheong Poon TCP_REASS_SET_END(mp1, 0); 683721fffe3SKacheong Poon freeb(mp1); 684721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInDataDupSegs); 685721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpInDataDupBytes, end - u1); 686721fffe3SKacheong Poon } 687721fffe3SKacheong Poon if (!mp1) 688721fffe3SKacheong Poon tcp->tcp_reass_tail = mp; 689721fffe3SKacheong Poon } 690721fffe3SKacheong Poon 691721fffe3SKacheong Poon /* 692*1f183ba0SLauri Tirkkonen * This function does PAWS protection check, per RFC 7323 section 5. Requires 693*1f183ba0SLauri Tirkkonen * that timestamp options are already processed into tcpoptp. Returns B_TRUE if 694*1f183ba0SLauri Tirkkonen * the segment passes the PAWS test, else returns B_FALSE. 695721fffe3SKacheong Poon */ 696721fffe3SKacheong Poon boolean_t 697*1f183ba0SLauri Tirkkonen tcp_paws_check(tcp_t *tcp, const tcp_opt_t *tcpoptp) 698721fffe3SKacheong Poon { 699*1f183ba0SLauri Tirkkonen if (TSTMP_LT(tcpoptp->tcp_opt_ts_val, 700721fffe3SKacheong Poon tcp->tcp_ts_recent)) { 701fec71d83SGeorge Shepherd if (LBOLT_FASTPATH64 < 702fec71d83SGeorge Shepherd (tcp->tcp_last_rcv_lbolt + PAWS_TIMEOUT)) { 703721fffe3SKacheong Poon /* This segment is not acceptable. */ 704721fffe3SKacheong Poon return (B_FALSE); 705721fffe3SKacheong Poon } else { 706721fffe3SKacheong Poon /* 707721fffe3SKacheong Poon * Connection has been idle for 708721fffe3SKacheong Poon * too long. Reset the timestamp 709721fffe3SKacheong Poon */ 710721fffe3SKacheong Poon tcp->tcp_ts_recent = 711721fffe3SKacheong Poon tcpoptp->tcp_opt_ts_val; 712721fffe3SKacheong Poon } 713721fffe3SKacheong Poon } 714721fffe3SKacheong Poon return (B_TRUE); 715721fffe3SKacheong Poon } 716721fffe3SKacheong Poon 717721fffe3SKacheong Poon /* 718721fffe3SKacheong Poon * Defense for the SYN attack - 719721fffe3SKacheong Poon * 1. When q0 is full, drop from the tail (tcp_eager_prev_drop_q0) the oldest 720721fffe3SKacheong Poon * one from the list of droppable eagers. This list is a subset of q0. 721721fffe3SKacheong Poon * see comments before the definition of MAKE_DROPPABLE(). 722721fffe3SKacheong Poon * 2. Don't drop a SYN request before its first timeout. This gives every 723721fffe3SKacheong Poon * request at least til the first timeout to complete its 3-way handshake. 724721fffe3SKacheong Poon * 3. Maintain tcp_syn_rcvd_timeout as an accurate count of how many 725721fffe3SKacheong Poon * requests currently on the queue that has timed out. This will be used 726721fffe3SKacheong Poon * as an indicator of whether an attack is under way, so that appropriate 727721fffe3SKacheong Poon * actions can be taken. (It's incremented in tcp_timer() and decremented 728721fffe3SKacheong Poon * either when eager goes into ESTABLISHED, or gets freed up.) 729721fffe3SKacheong Poon * 4. The current threshold is - # of timeout > q0len/4 => SYN alert on 730721fffe3SKacheong Poon * # of timeout drops back to <= q0len/32 => SYN alert off 731721fffe3SKacheong Poon */ 732721fffe3SKacheong Poon static boolean_t 733721fffe3SKacheong Poon tcp_drop_q0(tcp_t *tcp) 734721fffe3SKacheong Poon { 735721fffe3SKacheong Poon tcp_t *eager; 736721fffe3SKacheong Poon mblk_t *mp; 737721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps; 738721fffe3SKacheong Poon 739721fffe3SKacheong Poon ASSERT(MUTEX_HELD(&tcp->tcp_eager_lock)); 740721fffe3SKacheong Poon ASSERT(tcp->tcp_eager_next_q0 != tcp->tcp_eager_prev_q0); 741721fffe3SKacheong Poon 742721fffe3SKacheong Poon /* Pick oldest eager from the list of droppable eagers */ 743721fffe3SKacheong Poon eager = tcp->tcp_eager_prev_drop_q0; 744721fffe3SKacheong Poon 745721fffe3SKacheong Poon /* If list is empty. return B_FALSE */ 746721fffe3SKacheong Poon if (eager == tcp) { 747721fffe3SKacheong Poon return (B_FALSE); 748721fffe3SKacheong Poon } 749721fffe3SKacheong Poon 750721fffe3SKacheong Poon /* If allocated, the mp will be freed in tcp_clean_death_wrapper() */ 751721fffe3SKacheong Poon if ((mp = allocb(0, BPRI_HI)) == NULL) 752721fffe3SKacheong Poon return (B_FALSE); 753721fffe3SKacheong Poon 754721fffe3SKacheong Poon /* 755721fffe3SKacheong Poon * Take this eager out from the list of droppable eagers since we are 756721fffe3SKacheong Poon * going to drop it. 757721fffe3SKacheong Poon */ 758721fffe3SKacheong Poon MAKE_UNDROPPABLE(eager); 759721fffe3SKacheong Poon 760721fffe3SKacheong Poon if (tcp->tcp_connp->conn_debug) { 761721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 3, SL_TRACE, 762721fffe3SKacheong Poon "tcp_drop_q0: listen half-open queue (max=%d) overflow" 763721fffe3SKacheong Poon " (%d pending) on %s, drop one", tcps->tcps_conn_req_max_q0, 764721fffe3SKacheong Poon tcp->tcp_conn_req_cnt_q0, 765721fffe3SKacheong Poon tcp_display(tcp, NULL, DISP_PORT_ONLY)); 766721fffe3SKacheong Poon } 767721fffe3SKacheong Poon 768721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpHalfOpenDrop); 769721fffe3SKacheong Poon 770721fffe3SKacheong Poon /* Put a reference on the conn as we are enqueueing it in the sqeue */ 771721fffe3SKacheong Poon CONN_INC_REF(eager->tcp_connp); 772721fffe3SKacheong Poon 773721fffe3SKacheong Poon SQUEUE_ENTER_ONE(eager->tcp_connp->conn_sqp, mp, 774721fffe3SKacheong Poon tcp_clean_death_wrapper, eager->tcp_connp, NULL, 775721fffe3SKacheong Poon SQ_FILL, SQTAG_TCP_DROP_Q0); 776721fffe3SKacheong Poon 777721fffe3SKacheong Poon return (B_TRUE); 778721fffe3SKacheong Poon } 779721fffe3SKacheong Poon 780721fffe3SKacheong Poon /* 781721fffe3SKacheong Poon * Handle a SYN on an AF_INET6 socket; can be either IPv4 or IPv6 782721fffe3SKacheong Poon */ 783721fffe3SKacheong Poon static mblk_t * 784721fffe3SKacheong Poon tcp_conn_create_v6(conn_t *lconnp, conn_t *connp, mblk_t *mp, 785721fffe3SKacheong Poon ip_recv_attr_t *ira) 786721fffe3SKacheong Poon { 787721fffe3SKacheong Poon tcp_t *ltcp = lconnp->conn_tcp; 788721fffe3SKacheong Poon tcp_t *tcp = connp->conn_tcp; 789721fffe3SKacheong Poon mblk_t *tpi_mp; 790721fffe3SKacheong Poon ipha_t *ipha; 791721fffe3SKacheong Poon ip6_t *ip6h; 792721fffe3SKacheong Poon sin6_t sin6; 793721fffe3SKacheong Poon uint_t ifindex = ira->ira_ruifindex; 794721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps; 795721fffe3SKacheong Poon 796721fffe3SKacheong Poon if (ira->ira_flags & IRAF_IS_IPV4) { 797721fffe3SKacheong Poon ipha = (ipha_t *)mp->b_rptr; 798721fffe3SKacheong Poon 799721fffe3SKacheong Poon connp->conn_ipversion = IPV4_VERSION; 800721fffe3SKacheong Poon IN6_IPADDR_TO_V4MAPPED(ipha->ipha_dst, &connp->conn_laddr_v6); 801721fffe3SKacheong Poon IN6_IPADDR_TO_V4MAPPED(ipha->ipha_src, &connp->conn_faddr_v6); 802721fffe3SKacheong Poon connp->conn_saddr_v6 = connp->conn_laddr_v6; 803721fffe3SKacheong Poon 804721fffe3SKacheong Poon sin6 = sin6_null; 805721fffe3SKacheong Poon sin6.sin6_addr = connp->conn_faddr_v6; 806721fffe3SKacheong Poon sin6.sin6_port = connp->conn_fport; 807721fffe3SKacheong Poon sin6.sin6_family = AF_INET6; 808721fffe3SKacheong Poon sin6.__sin6_src_id = ip_srcid_find_addr(&connp->conn_laddr_v6, 809721fffe3SKacheong Poon IPCL_ZONEID(lconnp), tcps->tcps_netstack); 810721fffe3SKacheong Poon 811721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_recvdstaddr) { 812721fffe3SKacheong Poon sin6_t sin6d; 813721fffe3SKacheong Poon 814721fffe3SKacheong Poon sin6d = sin6_null; 815721fffe3SKacheong Poon sin6d.sin6_addr = connp->conn_laddr_v6; 816721fffe3SKacheong Poon sin6d.sin6_port = connp->conn_lport; 817721fffe3SKacheong Poon sin6d.sin6_family = AF_INET; 818721fffe3SKacheong Poon tpi_mp = mi_tpi_extconn_ind(NULL, 819721fffe3SKacheong Poon (char *)&sin6d, sizeof (sin6_t), 820721fffe3SKacheong Poon (char *)&tcp, 821721fffe3SKacheong Poon (t_scalar_t)sizeof (intptr_t), 822721fffe3SKacheong Poon (char *)&sin6d, sizeof (sin6_t), 823721fffe3SKacheong Poon (t_scalar_t)ltcp->tcp_conn_req_seqnum); 824721fffe3SKacheong Poon } else { 825721fffe3SKacheong Poon tpi_mp = mi_tpi_conn_ind(NULL, 826721fffe3SKacheong Poon (char *)&sin6, sizeof (sin6_t), 827721fffe3SKacheong Poon (char *)&tcp, (t_scalar_t)sizeof (intptr_t), 828721fffe3SKacheong Poon (t_scalar_t)ltcp->tcp_conn_req_seqnum); 829721fffe3SKacheong Poon } 830721fffe3SKacheong Poon } else { 831721fffe3SKacheong Poon ip6h = (ip6_t *)mp->b_rptr; 832721fffe3SKacheong Poon 833721fffe3SKacheong Poon connp->conn_ipversion = IPV6_VERSION; 834721fffe3SKacheong Poon connp->conn_laddr_v6 = ip6h->ip6_dst; 835721fffe3SKacheong Poon connp->conn_faddr_v6 = ip6h->ip6_src; 836721fffe3SKacheong Poon connp->conn_saddr_v6 = connp->conn_laddr_v6; 837721fffe3SKacheong Poon 838721fffe3SKacheong Poon sin6 = sin6_null; 839721fffe3SKacheong Poon sin6.sin6_addr = connp->conn_faddr_v6; 840721fffe3SKacheong Poon sin6.sin6_port = connp->conn_fport; 841721fffe3SKacheong Poon sin6.sin6_family = AF_INET6; 842721fffe3SKacheong Poon sin6.sin6_flowinfo = ip6h->ip6_vcf & ~IPV6_VERS_AND_FLOW_MASK; 843721fffe3SKacheong Poon sin6.__sin6_src_id = ip_srcid_find_addr(&connp->conn_laddr_v6, 844721fffe3SKacheong Poon IPCL_ZONEID(lconnp), tcps->tcps_netstack); 845721fffe3SKacheong Poon 846721fffe3SKacheong Poon if (IN6_IS_ADDR_LINKSCOPE(&ip6h->ip6_src)) { 847721fffe3SKacheong Poon /* Pass up the scope_id of remote addr */ 848721fffe3SKacheong Poon sin6.sin6_scope_id = ifindex; 849721fffe3SKacheong Poon } else { 850721fffe3SKacheong Poon sin6.sin6_scope_id = 0; 851721fffe3SKacheong Poon } 852721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_recvdstaddr) { 853721fffe3SKacheong Poon sin6_t sin6d; 854721fffe3SKacheong Poon 855721fffe3SKacheong Poon sin6d = sin6_null; 856721fffe3SKacheong Poon sin6.sin6_addr = connp->conn_laddr_v6; 857721fffe3SKacheong Poon sin6d.sin6_port = connp->conn_lport; 858721fffe3SKacheong Poon sin6d.sin6_family = AF_INET6; 859721fffe3SKacheong Poon if (IN6_IS_ADDR_LINKSCOPE(&connp->conn_laddr_v6)) 860721fffe3SKacheong Poon sin6d.sin6_scope_id = ifindex; 861721fffe3SKacheong Poon 862721fffe3SKacheong Poon tpi_mp = mi_tpi_extconn_ind(NULL, 863721fffe3SKacheong Poon (char *)&sin6d, sizeof (sin6_t), 864721fffe3SKacheong Poon (char *)&tcp, (t_scalar_t)sizeof (intptr_t), 865721fffe3SKacheong Poon (char *)&sin6d, sizeof (sin6_t), 866721fffe3SKacheong Poon (t_scalar_t)ltcp->tcp_conn_req_seqnum); 867721fffe3SKacheong Poon } else { 868721fffe3SKacheong Poon tpi_mp = mi_tpi_conn_ind(NULL, 869721fffe3SKacheong Poon (char *)&sin6, sizeof (sin6_t), 870721fffe3SKacheong Poon (char *)&tcp, (t_scalar_t)sizeof (intptr_t), 871721fffe3SKacheong Poon (t_scalar_t)ltcp->tcp_conn_req_seqnum); 872721fffe3SKacheong Poon } 873721fffe3SKacheong Poon } 874721fffe3SKacheong Poon 875721fffe3SKacheong Poon tcp->tcp_mss = tcps->tcps_mss_def_ipv6; 876721fffe3SKacheong Poon return (tpi_mp); 877721fffe3SKacheong Poon } 878721fffe3SKacheong Poon 879721fffe3SKacheong Poon /* Handle a SYN on an AF_INET socket */ 880721fffe3SKacheong Poon static mblk_t * 881721fffe3SKacheong Poon tcp_conn_create_v4(conn_t *lconnp, conn_t *connp, mblk_t *mp, 882721fffe3SKacheong Poon ip_recv_attr_t *ira) 883721fffe3SKacheong Poon { 884721fffe3SKacheong Poon tcp_t *ltcp = lconnp->conn_tcp; 885721fffe3SKacheong Poon tcp_t *tcp = connp->conn_tcp; 886721fffe3SKacheong Poon sin_t sin; 887721fffe3SKacheong Poon mblk_t *tpi_mp = NULL; 888721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps; 889721fffe3SKacheong Poon ipha_t *ipha; 890721fffe3SKacheong Poon 891721fffe3SKacheong Poon ASSERT(ira->ira_flags & IRAF_IS_IPV4); 892721fffe3SKacheong Poon ipha = (ipha_t *)mp->b_rptr; 893721fffe3SKacheong Poon 894721fffe3SKacheong Poon connp->conn_ipversion = IPV4_VERSION; 895721fffe3SKacheong Poon IN6_IPADDR_TO_V4MAPPED(ipha->ipha_dst, &connp->conn_laddr_v6); 896721fffe3SKacheong Poon IN6_IPADDR_TO_V4MAPPED(ipha->ipha_src, &connp->conn_faddr_v6); 897721fffe3SKacheong Poon connp->conn_saddr_v6 = connp->conn_laddr_v6; 898721fffe3SKacheong Poon 899721fffe3SKacheong Poon sin = sin_null; 900721fffe3SKacheong Poon sin.sin_addr.s_addr = connp->conn_faddr_v4; 901721fffe3SKacheong Poon sin.sin_port = connp->conn_fport; 902721fffe3SKacheong Poon sin.sin_family = AF_INET; 903721fffe3SKacheong Poon if (lconnp->conn_recv_ancillary.crb_recvdstaddr) { 904721fffe3SKacheong Poon sin_t sind; 905721fffe3SKacheong Poon 906721fffe3SKacheong Poon sind = sin_null; 907721fffe3SKacheong Poon sind.sin_addr.s_addr = connp->conn_laddr_v4; 908721fffe3SKacheong Poon sind.sin_port = connp->conn_lport; 909721fffe3SKacheong Poon sind.sin_family = AF_INET; 910721fffe3SKacheong Poon tpi_mp = mi_tpi_extconn_ind(NULL, 911721fffe3SKacheong Poon (char *)&sind, sizeof (sin_t), (char *)&tcp, 912721fffe3SKacheong Poon (t_scalar_t)sizeof (intptr_t), (char *)&sind, 913721fffe3SKacheong Poon sizeof (sin_t), (t_scalar_t)ltcp->tcp_conn_req_seqnum); 914721fffe3SKacheong Poon } else { 915721fffe3SKacheong Poon tpi_mp = mi_tpi_conn_ind(NULL, 916721fffe3SKacheong Poon (char *)&sin, sizeof (sin_t), 917721fffe3SKacheong Poon (char *)&tcp, (t_scalar_t)sizeof (intptr_t), 918721fffe3SKacheong Poon (t_scalar_t)ltcp->tcp_conn_req_seqnum); 919721fffe3SKacheong Poon } 920721fffe3SKacheong Poon 921721fffe3SKacheong Poon tcp->tcp_mss = tcps->tcps_mss_def_ipv4; 922721fffe3SKacheong Poon return (tpi_mp); 923721fffe3SKacheong Poon } 924721fffe3SKacheong Poon 925721fffe3SKacheong Poon /* 926721fffe3SKacheong Poon * Called via squeue to get on to eager's perimeter. It sends a 927721fffe3SKacheong Poon * TH_RST if eager is in the fanout table. The listener wants the 928721fffe3SKacheong Poon * eager to disappear either by means of tcp_eager_blowoff() or 929721fffe3SKacheong Poon * tcp_eager_cleanup() being called. tcp_eager_kill() can also be 930721fffe3SKacheong Poon * called (via squeue) if the eager cannot be inserted in the 931721fffe3SKacheong Poon * fanout table in tcp_input_listener(). 932721fffe3SKacheong Poon */ 933721fffe3SKacheong Poon /* ARGSUSED */ 934721fffe3SKacheong Poon void 935721fffe3SKacheong Poon tcp_eager_kill(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *dummy) 936721fffe3SKacheong Poon { 937721fffe3SKacheong Poon conn_t *econnp = (conn_t *)arg; 938721fffe3SKacheong Poon tcp_t *eager = econnp->conn_tcp; 939721fffe3SKacheong Poon tcp_t *listener = eager->tcp_listener; 940721fffe3SKacheong Poon 941721fffe3SKacheong Poon /* 942721fffe3SKacheong Poon * We could be called because listener is closing. Since 943721fffe3SKacheong Poon * the eager was using listener's queue's, we avoid 944721fffe3SKacheong Poon * using the listeners queues from now on. 945721fffe3SKacheong Poon */ 946721fffe3SKacheong Poon ASSERT(eager->tcp_detached); 947721fffe3SKacheong Poon econnp->conn_rq = NULL; 948721fffe3SKacheong Poon econnp->conn_wq = NULL; 949721fffe3SKacheong Poon 950721fffe3SKacheong Poon /* 951721fffe3SKacheong Poon * An eager's conn_fanout will be NULL if it's a duplicate 952721fffe3SKacheong Poon * for an existing 4-tuples in the conn fanout table. 953721fffe3SKacheong Poon * We don't want to send an RST out in such case. 954721fffe3SKacheong Poon */ 955721fffe3SKacheong Poon if (econnp->conn_fanout != NULL && eager->tcp_state > TCPS_LISTEN) { 956721fffe3SKacheong Poon tcp_xmit_ctl("tcp_eager_kill, can't wait", 957721fffe3SKacheong Poon eager, eager->tcp_snxt, 0, TH_RST); 958721fffe3SKacheong Poon } 959721fffe3SKacheong Poon 960721fffe3SKacheong Poon /* We are here because listener wants this eager gone */ 961721fffe3SKacheong Poon if (listener != NULL) { 962721fffe3SKacheong Poon mutex_enter(&listener->tcp_eager_lock); 963721fffe3SKacheong Poon tcp_eager_unlink(eager); 964721fffe3SKacheong Poon if (eager->tcp_tconnind_started) { 965721fffe3SKacheong Poon /* 966721fffe3SKacheong Poon * The eager has sent a conn_ind up to the 967721fffe3SKacheong Poon * listener but listener decides to close 968721fffe3SKacheong Poon * instead. We need to drop the extra ref 969721fffe3SKacheong Poon * placed on eager in tcp_input_data() before 970721fffe3SKacheong Poon * sending the conn_ind to listener. 971721fffe3SKacheong Poon */ 972721fffe3SKacheong Poon CONN_DEC_REF(econnp); 973721fffe3SKacheong Poon } 974721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock); 975721fffe3SKacheong Poon CONN_DEC_REF(listener->tcp_connp); 976721fffe3SKacheong Poon } 977721fffe3SKacheong Poon 978721fffe3SKacheong Poon if (eager->tcp_state != TCPS_CLOSED) 979721fffe3SKacheong Poon tcp_close_detached(eager); 980721fffe3SKacheong Poon } 981721fffe3SKacheong Poon 982721fffe3SKacheong Poon /* 983721fffe3SKacheong Poon * Reset any eager connection hanging off this listener marked 984721fffe3SKacheong Poon * with 'seqnum' and then reclaim it's resources. 985721fffe3SKacheong Poon */ 986721fffe3SKacheong Poon boolean_t 987721fffe3SKacheong Poon tcp_eager_blowoff(tcp_t *listener, t_scalar_t seqnum) 988721fffe3SKacheong Poon { 989721fffe3SKacheong Poon tcp_t *eager; 990721fffe3SKacheong Poon mblk_t *mp; 991721fffe3SKacheong Poon 992721fffe3SKacheong Poon eager = listener; 993721fffe3SKacheong Poon mutex_enter(&listener->tcp_eager_lock); 994721fffe3SKacheong Poon do { 995721fffe3SKacheong Poon eager = eager->tcp_eager_next_q; 996721fffe3SKacheong Poon if (eager == NULL) { 997721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock); 998721fffe3SKacheong Poon return (B_FALSE); 999721fffe3SKacheong Poon } 1000721fffe3SKacheong Poon } while (eager->tcp_conn_req_seqnum != seqnum); 1001721fffe3SKacheong Poon 1002721fffe3SKacheong Poon if (eager->tcp_closemp_used) { 1003721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock); 1004721fffe3SKacheong Poon return (B_TRUE); 1005721fffe3SKacheong Poon } 1006721fffe3SKacheong Poon eager->tcp_closemp_used = B_TRUE; 1007721fffe3SKacheong Poon TCP_DEBUG_GETPCSTACK(eager->tcmp_stk, 15); 1008721fffe3SKacheong Poon CONN_INC_REF(eager->tcp_connp); 1009721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock); 1010721fffe3SKacheong Poon mp = &eager->tcp_closemp; 1011721fffe3SKacheong Poon SQUEUE_ENTER_ONE(eager->tcp_connp->conn_sqp, mp, tcp_eager_kill, 1012721fffe3SKacheong Poon eager->tcp_connp, NULL, SQ_FILL, SQTAG_TCP_EAGER_BLOWOFF); 1013721fffe3SKacheong Poon return (B_TRUE); 1014721fffe3SKacheong Poon } 1015721fffe3SKacheong Poon 1016721fffe3SKacheong Poon /* 1017721fffe3SKacheong Poon * Reset any eager connection hanging off this listener 1018721fffe3SKacheong Poon * and then reclaim it's resources. 1019721fffe3SKacheong Poon */ 1020721fffe3SKacheong Poon void 1021721fffe3SKacheong Poon tcp_eager_cleanup(tcp_t *listener, boolean_t q0_only) 1022721fffe3SKacheong Poon { 1023721fffe3SKacheong Poon tcp_t *eager; 1024721fffe3SKacheong Poon mblk_t *mp; 1025721fffe3SKacheong Poon tcp_stack_t *tcps = listener->tcp_tcps; 1026721fffe3SKacheong Poon 1027721fffe3SKacheong Poon ASSERT(MUTEX_HELD(&listener->tcp_eager_lock)); 1028721fffe3SKacheong Poon 1029721fffe3SKacheong Poon if (!q0_only) { 1030721fffe3SKacheong Poon /* First cleanup q */ 1031721fffe3SKacheong Poon TCP_STAT(tcps, tcp_eager_blowoff_q); 1032721fffe3SKacheong Poon eager = listener->tcp_eager_next_q; 1033721fffe3SKacheong Poon while (eager != NULL) { 1034721fffe3SKacheong Poon if (!eager->tcp_closemp_used) { 1035721fffe3SKacheong Poon eager->tcp_closemp_used = B_TRUE; 1036721fffe3SKacheong Poon TCP_DEBUG_GETPCSTACK(eager->tcmp_stk, 15); 1037721fffe3SKacheong Poon CONN_INC_REF(eager->tcp_connp); 1038721fffe3SKacheong Poon mp = &eager->tcp_closemp; 1039721fffe3SKacheong Poon SQUEUE_ENTER_ONE(eager->tcp_connp->conn_sqp, mp, 1040721fffe3SKacheong Poon tcp_eager_kill, eager->tcp_connp, NULL, 1041721fffe3SKacheong Poon SQ_FILL, SQTAG_TCP_EAGER_CLEANUP); 1042721fffe3SKacheong Poon } 1043721fffe3SKacheong Poon eager = eager->tcp_eager_next_q; 1044721fffe3SKacheong Poon } 1045721fffe3SKacheong Poon } 1046721fffe3SKacheong Poon /* Then cleanup q0 */ 1047721fffe3SKacheong Poon TCP_STAT(tcps, tcp_eager_blowoff_q0); 1048721fffe3SKacheong Poon eager = listener->tcp_eager_next_q0; 1049721fffe3SKacheong Poon while (eager != listener) { 1050721fffe3SKacheong Poon if (!eager->tcp_closemp_used) { 1051721fffe3SKacheong Poon eager->tcp_closemp_used = B_TRUE; 1052721fffe3SKacheong Poon TCP_DEBUG_GETPCSTACK(eager->tcmp_stk, 15); 1053721fffe3SKacheong Poon CONN_INC_REF(eager->tcp_connp); 1054721fffe3SKacheong Poon mp = &eager->tcp_closemp; 1055721fffe3SKacheong Poon SQUEUE_ENTER_ONE(eager->tcp_connp->conn_sqp, mp, 1056721fffe3SKacheong Poon tcp_eager_kill, eager->tcp_connp, NULL, SQ_FILL, 1057721fffe3SKacheong Poon SQTAG_TCP_EAGER_CLEANUP_Q0); 1058721fffe3SKacheong Poon } 1059721fffe3SKacheong Poon eager = eager->tcp_eager_next_q0; 1060721fffe3SKacheong Poon } 1061721fffe3SKacheong Poon } 1062721fffe3SKacheong Poon 1063721fffe3SKacheong Poon /* 1064721fffe3SKacheong Poon * If we are an eager connection hanging off a listener that hasn't 1065721fffe3SKacheong Poon * formally accepted the connection yet, get off his list and blow off 1066721fffe3SKacheong Poon * any data that we have accumulated. 1067721fffe3SKacheong Poon */ 1068721fffe3SKacheong Poon void 1069721fffe3SKacheong Poon tcp_eager_unlink(tcp_t *tcp) 1070721fffe3SKacheong Poon { 1071721fffe3SKacheong Poon tcp_t *listener = tcp->tcp_listener; 1072721fffe3SKacheong Poon 1073721fffe3SKacheong Poon ASSERT(listener != NULL); 1074721fffe3SKacheong Poon ASSERT(MUTEX_HELD(&listener->tcp_eager_lock)); 1075721fffe3SKacheong Poon if (tcp->tcp_eager_next_q0 != NULL) { 1076721fffe3SKacheong Poon ASSERT(tcp->tcp_eager_prev_q0 != NULL); 1077721fffe3SKacheong Poon 1078721fffe3SKacheong Poon /* Remove the eager tcp from q0 */ 1079721fffe3SKacheong Poon tcp->tcp_eager_next_q0->tcp_eager_prev_q0 = 1080721fffe3SKacheong Poon tcp->tcp_eager_prev_q0; 1081721fffe3SKacheong Poon tcp->tcp_eager_prev_q0->tcp_eager_next_q0 = 1082721fffe3SKacheong Poon tcp->tcp_eager_next_q0; 1083721fffe3SKacheong Poon ASSERT(listener->tcp_conn_req_cnt_q0 > 0); 1084721fffe3SKacheong Poon listener->tcp_conn_req_cnt_q0--; 1085721fffe3SKacheong Poon 1086721fffe3SKacheong Poon tcp->tcp_eager_next_q0 = NULL; 1087721fffe3SKacheong Poon tcp->tcp_eager_prev_q0 = NULL; 1088721fffe3SKacheong Poon 1089721fffe3SKacheong Poon /* 1090721fffe3SKacheong Poon * Take the eager out, if it is in the list of droppable 1091721fffe3SKacheong Poon * eagers. 1092721fffe3SKacheong Poon */ 1093721fffe3SKacheong Poon MAKE_UNDROPPABLE(tcp); 1094721fffe3SKacheong Poon 1095721fffe3SKacheong Poon if (tcp->tcp_syn_rcvd_timeout != 0) { 1096721fffe3SKacheong Poon /* we have timed out before */ 1097721fffe3SKacheong Poon ASSERT(listener->tcp_syn_rcvd_timeout > 0); 1098721fffe3SKacheong Poon listener->tcp_syn_rcvd_timeout--; 1099721fffe3SKacheong Poon } 1100721fffe3SKacheong Poon } else { 1101721fffe3SKacheong Poon tcp_t **tcpp = &listener->tcp_eager_next_q; 1102721fffe3SKacheong Poon tcp_t *prev = NULL; 1103721fffe3SKacheong Poon 1104721fffe3SKacheong Poon for (; tcpp[0]; tcpp = &tcpp[0]->tcp_eager_next_q) { 1105721fffe3SKacheong Poon if (tcpp[0] == tcp) { 1106721fffe3SKacheong Poon if (listener->tcp_eager_last_q == tcp) { 1107721fffe3SKacheong Poon /* 1108721fffe3SKacheong Poon * If we are unlinking the last 1109721fffe3SKacheong Poon * element on the list, adjust 1110721fffe3SKacheong Poon * tail pointer. Set tail pointer 1111721fffe3SKacheong Poon * to nil when list is empty. 1112721fffe3SKacheong Poon */ 1113721fffe3SKacheong Poon ASSERT(tcp->tcp_eager_next_q == NULL); 1114721fffe3SKacheong Poon if (listener->tcp_eager_last_q == 1115721fffe3SKacheong Poon listener->tcp_eager_next_q) { 1116721fffe3SKacheong Poon listener->tcp_eager_last_q = 1117721fffe3SKacheong Poon NULL; 1118721fffe3SKacheong Poon } else { 1119721fffe3SKacheong Poon /* 1120721fffe3SKacheong Poon * We won't get here if there 1121721fffe3SKacheong Poon * is only one eager in the 1122721fffe3SKacheong Poon * list. 1123721fffe3SKacheong Poon */ 1124721fffe3SKacheong Poon ASSERT(prev != NULL); 1125721fffe3SKacheong Poon listener->tcp_eager_last_q = 1126721fffe3SKacheong Poon prev; 1127721fffe3SKacheong Poon } 1128721fffe3SKacheong Poon } 1129721fffe3SKacheong Poon tcpp[0] = tcp->tcp_eager_next_q; 1130721fffe3SKacheong Poon tcp->tcp_eager_next_q = NULL; 1131721fffe3SKacheong Poon tcp->tcp_eager_last_q = NULL; 1132721fffe3SKacheong Poon ASSERT(listener->tcp_conn_req_cnt_q > 0); 1133721fffe3SKacheong Poon listener->tcp_conn_req_cnt_q--; 1134721fffe3SKacheong Poon break; 1135721fffe3SKacheong Poon } 1136721fffe3SKacheong Poon prev = tcpp[0]; 1137721fffe3SKacheong Poon } 1138721fffe3SKacheong Poon } 1139721fffe3SKacheong Poon tcp->tcp_listener = NULL; 1140721fffe3SKacheong Poon } 1141721fffe3SKacheong Poon 1142721fffe3SKacheong Poon /* BEGIN CSTYLED */ 1143721fffe3SKacheong Poon /* 1144721fffe3SKacheong Poon * 1145721fffe3SKacheong Poon * The sockfs ACCEPT path: 1146721fffe3SKacheong Poon * ======================= 1147721fffe3SKacheong Poon * 1148721fffe3SKacheong Poon * The eager is now established in its own perimeter as soon as SYN is 1149721fffe3SKacheong Poon * received in tcp_input_listener(). When sockfs receives conn_ind, it 1150721fffe3SKacheong Poon * completes the accept processing on the acceptor STREAM. The sending 1151721fffe3SKacheong Poon * of conn_ind part is common for both sockfs listener and a TLI/XTI 1152721fffe3SKacheong Poon * listener but a TLI/XTI listener completes the accept processing 1153721fffe3SKacheong Poon * on the listener perimeter. 1154721fffe3SKacheong Poon * 1155721fffe3SKacheong Poon * Common control flow for 3 way handshake: 1156721fffe3SKacheong Poon * ---------------------------------------- 1157721fffe3SKacheong Poon * 1158721fffe3SKacheong Poon * incoming SYN (listener perimeter) -> tcp_input_listener() 1159721fffe3SKacheong Poon * 1160721fffe3SKacheong Poon * incoming SYN-ACK-ACK (eager perim) -> tcp_input_data() 1161721fffe3SKacheong Poon * send T_CONN_IND (listener perim) -> tcp_send_conn_ind() 1162721fffe3SKacheong Poon * 1163721fffe3SKacheong Poon * Sockfs ACCEPT Path: 1164721fffe3SKacheong Poon * ------------------- 1165721fffe3SKacheong Poon * 1166721fffe3SKacheong Poon * open acceptor stream (tcp_open allocates tcp_tli_accept() 1167721fffe3SKacheong Poon * as STREAM entry point) 1168721fffe3SKacheong Poon * 1169721fffe3SKacheong Poon * soaccept() sends T_CONN_RES on the acceptor STREAM to tcp_tli_accept() 1170721fffe3SKacheong Poon * 1171721fffe3SKacheong Poon * tcp_tli_accept() extracts the eager and makes the q->q_ptr <-> eager 1172721fffe3SKacheong Poon * association (we are not behind eager's squeue but sockfs is protecting us 1173721fffe3SKacheong Poon * and no one knows about this stream yet. The STREAMS entry point q->q_info 1174721fffe3SKacheong Poon * is changed to point at tcp_wput(). 1175721fffe3SKacheong Poon * 1176721fffe3SKacheong Poon * tcp_accept_common() sends any deferred eagers via tcp_send_pending() to 1177721fffe3SKacheong Poon * listener (done on listener's perimeter). 1178721fffe3SKacheong Poon * 1179721fffe3SKacheong Poon * tcp_tli_accept() calls tcp_accept_finish() on eagers perimeter to finish 1180721fffe3SKacheong Poon * accept. 1181721fffe3SKacheong Poon * 1182721fffe3SKacheong Poon * TLI/XTI client ACCEPT path: 1183721fffe3SKacheong Poon * --------------------------- 1184721fffe3SKacheong Poon * 1185721fffe3SKacheong Poon * soaccept() sends T_CONN_RES on the listener STREAM. 1186721fffe3SKacheong Poon * 1187721fffe3SKacheong Poon * tcp_tli_accept() -> tcp_accept_swap() complete the processing and send 1188721fffe3SKacheong Poon * a M_SETOPS mblk to eager perimeter to finish accept (tcp_accept_finish()). 1189721fffe3SKacheong Poon * 1190721fffe3SKacheong Poon * Locks: 1191721fffe3SKacheong Poon * ====== 1192721fffe3SKacheong Poon * 1193721fffe3SKacheong Poon * listener->tcp_eager_lock protects the listeners->tcp_eager_next_q0 and 1194721fffe3SKacheong Poon * and listeners->tcp_eager_next_q. 1195721fffe3SKacheong Poon * 1196721fffe3SKacheong Poon * Referencing: 1197721fffe3SKacheong Poon * ============ 1198721fffe3SKacheong Poon * 1199721fffe3SKacheong Poon * 1) We start out in tcp_input_listener by eager placing a ref on 1200721fffe3SKacheong Poon * listener and listener adding eager to listeners->tcp_eager_next_q0. 1201721fffe3SKacheong Poon * 1202721fffe3SKacheong Poon * 2) When a SYN-ACK-ACK arrives, we send the conn_ind to listener. Before 1203721fffe3SKacheong Poon * doing so we place a ref on the eager. This ref is finally dropped at the 1204721fffe3SKacheong Poon * end of tcp_accept_finish() while unwinding from the squeue, i.e. the 1205721fffe3SKacheong Poon * reference is dropped by the squeue framework. 1206721fffe3SKacheong Poon * 1207721fffe3SKacheong Poon * 3) The ref on listener placed in 1 above is dropped in tcp_accept_finish 1208721fffe3SKacheong Poon * 1209721fffe3SKacheong Poon * The reference must be released by the same entity that added the reference 1210721fffe3SKacheong Poon * In the above scheme, the eager is the entity that adds and releases the 1211721fffe3SKacheong Poon * references. Note that tcp_accept_finish executes in the squeue of the eager 1212721fffe3SKacheong Poon * (albeit after it is attached to the acceptor stream). Though 1. executes 1213721fffe3SKacheong Poon * in the listener's squeue, the eager is nascent at this point and the 1214721fffe3SKacheong Poon * reference can be considered to have been added on behalf of the eager. 1215721fffe3SKacheong Poon * 1216721fffe3SKacheong Poon * Eager getting a Reset or listener closing: 1217721fffe3SKacheong Poon * ========================================== 1218721fffe3SKacheong Poon * 1219721fffe3SKacheong Poon * Once the listener and eager are linked, the listener never does the unlink. 1220721fffe3SKacheong Poon * If the listener needs to close, tcp_eager_cleanup() is called which queues 1221721fffe3SKacheong Poon * a message on all eager perimeter. The eager then does the unlink, clears 1222721fffe3SKacheong Poon * any pointers to the listener's queue and drops the reference to the 1223721fffe3SKacheong Poon * listener. The listener waits in tcp_close outside the squeue until its 1224721fffe3SKacheong Poon * refcount has dropped to 1. This ensures that the listener has waited for 1225721fffe3SKacheong Poon * all eagers to clear their association with the listener. 1226721fffe3SKacheong Poon * 1227721fffe3SKacheong Poon * Similarly, if eager decides to go away, it can unlink itself and close. 1228721fffe3SKacheong Poon * When the T_CONN_RES comes down, we check if eager has closed. Note that 1229721fffe3SKacheong Poon * the reference to eager is still valid because of the extra ref we put 1230721fffe3SKacheong Poon * in tcp_send_conn_ind. 1231721fffe3SKacheong Poon * 1232721fffe3SKacheong Poon * Listener can always locate the eager under the protection 1233721fffe3SKacheong Poon * of the listener->tcp_eager_lock, and then do a refhold 1234721fffe3SKacheong Poon * on the eager during the accept processing. 1235721fffe3SKacheong Poon * 1236721fffe3SKacheong Poon * The acceptor stream accesses the eager in the accept processing 1237721fffe3SKacheong Poon * based on the ref placed on eager before sending T_conn_ind. 1238721fffe3SKacheong Poon * The only entity that can negate this refhold is a listener close 1239721fffe3SKacheong Poon * which is mutually exclusive with an active acceptor stream. 1240721fffe3SKacheong Poon * 1241721fffe3SKacheong Poon * Eager's reference on the listener 1242721fffe3SKacheong Poon * =================================== 1243721fffe3SKacheong Poon * 1244721fffe3SKacheong Poon * If the accept happens (even on a closed eager) the eager drops its 1245721fffe3SKacheong Poon * reference on the listener at the start of tcp_accept_finish. If the 1246721fffe3SKacheong Poon * eager is killed due to an incoming RST before the T_conn_ind is sent up, 1247721fffe3SKacheong Poon * the reference is dropped in tcp_closei_local. If the listener closes, 1248721fffe3SKacheong Poon * the reference is dropped in tcp_eager_kill. In all cases the reference 1249721fffe3SKacheong Poon * is dropped while executing in the eager's context (squeue). 1250721fffe3SKacheong Poon */ 1251721fffe3SKacheong Poon /* END CSTYLED */ 1252721fffe3SKacheong Poon 1253721fffe3SKacheong Poon /* Process the SYN packet, mp, directed at the listener 'tcp' */ 1254721fffe3SKacheong Poon 1255721fffe3SKacheong Poon /* 1256721fffe3SKacheong Poon * THIS FUNCTION IS DIRECTLY CALLED BY IP VIA SQUEUE FOR SYN. 1257721fffe3SKacheong Poon * tcp_input_data will not see any packets for listeners since the listener 1258721fffe3SKacheong Poon * has conn_recv set to tcp_input_listener. 1259721fffe3SKacheong Poon */ 1260721fffe3SKacheong Poon /* ARGSUSED */ 1261721fffe3SKacheong Poon static void 1262721fffe3SKacheong Poon tcp_input_listener(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *ira) 1263721fffe3SKacheong Poon { 1264721fffe3SKacheong Poon tcpha_t *tcpha; 1265721fffe3SKacheong Poon uint32_t seg_seq; 1266721fffe3SKacheong Poon tcp_t *eager; 1267721fffe3SKacheong Poon int err; 1268721fffe3SKacheong Poon conn_t *econnp = NULL; 1269721fffe3SKacheong Poon squeue_t *new_sqp; 1270721fffe3SKacheong Poon mblk_t *mp1; 1271721fffe3SKacheong Poon uint_t ip_hdr_len; 1272721fffe3SKacheong Poon conn_t *lconnp = (conn_t *)arg; 1273721fffe3SKacheong Poon tcp_t *listener = lconnp->conn_tcp; 1274721fffe3SKacheong Poon tcp_stack_t *tcps = listener->tcp_tcps; 1275721fffe3SKacheong Poon ip_stack_t *ipst = tcps->tcps_netstack->netstack_ip; 1276721fffe3SKacheong Poon uint_t flags; 1277721fffe3SKacheong Poon mblk_t *tpi_mp; 1278721fffe3SKacheong Poon uint_t ifindex = ira->ira_ruifindex; 1279721fffe3SKacheong Poon boolean_t tlc_set = B_FALSE; 1280721fffe3SKacheong Poon 1281721fffe3SKacheong Poon ip_hdr_len = ira->ira_ip_hdr_length; 1282721fffe3SKacheong Poon tcpha = (tcpha_t *)&mp->b_rptr[ip_hdr_len]; 1283721fffe3SKacheong Poon flags = (unsigned int)tcpha->tha_flags & 0xFF; 1284721fffe3SKacheong Poon 12859cd928feSAlan Maguire DTRACE_TCP5(receive, mblk_t *, NULL, ip_xmit_attr_t *, lconnp->conn_ixa, 12869cd928feSAlan Maguire __dtrace_tcp_void_ip_t *, mp->b_rptr, tcp_t *, listener, 12879cd928feSAlan Maguire __dtrace_tcp_tcph_t *, tcpha); 12889cd928feSAlan Maguire 1289721fffe3SKacheong Poon if (!(flags & TH_SYN)) { 1290721fffe3SKacheong Poon if ((flags & TH_RST) || (flags & TH_URG)) { 1291721fffe3SKacheong Poon freemsg(mp); 1292721fffe3SKacheong Poon return; 1293721fffe3SKacheong Poon } 1294721fffe3SKacheong Poon if (flags & TH_ACK) { 1295721fffe3SKacheong Poon /* Note this executes in listener's squeue */ 1296721fffe3SKacheong Poon tcp_xmit_listeners_reset(mp, ira, ipst, lconnp); 1297721fffe3SKacheong Poon return; 1298721fffe3SKacheong Poon } 1299721fffe3SKacheong Poon 1300721fffe3SKacheong Poon freemsg(mp); 1301721fffe3SKacheong Poon return; 1302721fffe3SKacheong Poon } 1303721fffe3SKacheong Poon 1304721fffe3SKacheong Poon if (listener->tcp_state != TCPS_LISTEN) 1305721fffe3SKacheong Poon goto error2; 1306721fffe3SKacheong Poon 1307721fffe3SKacheong Poon ASSERT(IPCL_IS_BOUND(lconnp)); 1308721fffe3SKacheong Poon 1309721fffe3SKacheong Poon mutex_enter(&listener->tcp_eager_lock); 1310721fffe3SKacheong Poon 1311721fffe3SKacheong Poon /* 1312721fffe3SKacheong Poon * The system is under memory pressure, so we need to do our part 1313721fffe3SKacheong Poon * to relieve the pressure. So we only accept new request if there 1314721fffe3SKacheong Poon * is nothing waiting to be accepted or waiting to complete the 3-way 1315721fffe3SKacheong Poon * handshake. This means that busy listener will not get too many 1316721fffe3SKacheong Poon * new requests which they cannot handle in time while non-busy 1317721fffe3SKacheong Poon * listener is still functioning properly. 1318721fffe3SKacheong Poon */ 1319721fffe3SKacheong Poon if (tcps->tcps_reclaim && (listener->tcp_conn_req_cnt_q > 0 || 1320721fffe3SKacheong Poon listener->tcp_conn_req_cnt_q0 > 0)) { 1321721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock); 1322721fffe3SKacheong Poon TCP_STAT(tcps, tcp_listen_mem_drop); 1323721fffe3SKacheong Poon goto error2; 1324721fffe3SKacheong Poon } 1325721fffe3SKacheong Poon 1326721fffe3SKacheong Poon if (listener->tcp_conn_req_cnt_q >= listener->tcp_conn_req_max) { 1327721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock); 1328721fffe3SKacheong Poon TCP_STAT(tcps, tcp_listendrop); 1329721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpListenDrop); 1330721fffe3SKacheong Poon if (lconnp->conn_debug) { 1331721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE|SL_ERROR, 1332721fffe3SKacheong Poon "tcp_input_listener: listen backlog (max=%d) " 1333721fffe3SKacheong Poon "overflow (%d pending) on %s", 1334721fffe3SKacheong Poon listener->tcp_conn_req_max, 1335721fffe3SKacheong Poon listener->tcp_conn_req_cnt_q, 1336721fffe3SKacheong Poon tcp_display(listener, NULL, DISP_PORT_ONLY)); 1337721fffe3SKacheong Poon } 1338721fffe3SKacheong Poon goto error2; 1339721fffe3SKacheong Poon } 1340721fffe3SKacheong Poon 1341721fffe3SKacheong Poon if (listener->tcp_conn_req_cnt_q0 >= 1342721fffe3SKacheong Poon listener->tcp_conn_req_max + tcps->tcps_conn_req_max_q0) { 1343721fffe3SKacheong Poon /* 1344721fffe3SKacheong Poon * Q0 is full. Drop a pending half-open req from the queue 1345721fffe3SKacheong Poon * to make room for the new SYN req. Also mark the time we 1346721fffe3SKacheong Poon * drop a SYN. 1347721fffe3SKacheong Poon * 1348721fffe3SKacheong Poon * A more aggressive defense against SYN attack will 1349721fffe3SKacheong Poon * be to set the "tcp_syn_defense" flag now. 1350721fffe3SKacheong Poon */ 1351721fffe3SKacheong Poon TCP_STAT(tcps, tcp_listendropq0); 1352721fffe3SKacheong Poon listener->tcp_last_rcv_lbolt = ddi_get_lbolt64(); 1353721fffe3SKacheong Poon if (!tcp_drop_q0(listener)) { 1354721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock); 1355721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpListenDropQ0); 1356721fffe3SKacheong Poon if (lconnp->conn_debug) { 1357721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 3, SL_TRACE, 1358721fffe3SKacheong Poon "tcp_input_listener: listen half-open " 1359721fffe3SKacheong Poon "queue (max=%d) full (%d pending) on %s", 1360721fffe3SKacheong Poon tcps->tcps_conn_req_max_q0, 1361721fffe3SKacheong Poon listener->tcp_conn_req_cnt_q0, 1362721fffe3SKacheong Poon tcp_display(listener, NULL, 1363721fffe3SKacheong Poon DISP_PORT_ONLY)); 1364721fffe3SKacheong Poon } 1365721fffe3SKacheong Poon goto error2; 1366721fffe3SKacheong Poon } 1367721fffe3SKacheong Poon } 1368721fffe3SKacheong Poon 1369721fffe3SKacheong Poon /* 1370721fffe3SKacheong Poon * Enforce the limit set on the number of connections per listener. 1371721fffe3SKacheong Poon * Note that tlc_cnt starts with 1. So need to add 1 to tlc_max 1372721fffe3SKacheong Poon * for comparison. 1373721fffe3SKacheong Poon */ 1374721fffe3SKacheong Poon if (listener->tcp_listen_cnt != NULL) { 1375721fffe3SKacheong Poon tcp_listen_cnt_t *tlc = listener->tcp_listen_cnt; 1376721fffe3SKacheong Poon int64_t now; 1377721fffe3SKacheong Poon 13781a5e258fSJosef 'Jeff' Sipek if (atomic_inc_32_nv(&tlc->tlc_cnt) > tlc->tlc_max + 1) { 1379721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock); 1380721fffe3SKacheong Poon now = ddi_get_lbolt64(); 13811a5e258fSJosef 'Jeff' Sipek atomic_dec_32(&tlc->tlc_cnt); 1382721fffe3SKacheong Poon TCP_STAT(tcps, tcp_listen_cnt_drop); 1383721fffe3SKacheong Poon tlc->tlc_drop++; 1384721fffe3SKacheong Poon if (now - tlc->tlc_report_time > 1385721fffe3SKacheong Poon MSEC_TO_TICK(TCP_TLC_REPORT_INTERVAL)) { 1386721fffe3SKacheong Poon zcmn_err(lconnp->conn_zoneid, CE_WARN, 1387721fffe3SKacheong Poon "Listener (port %d) connection max (%u) " 1388721fffe3SKacheong Poon "reached: %u attempts dropped total\n", 1389721fffe3SKacheong Poon ntohs(listener->tcp_connp->conn_lport), 1390721fffe3SKacheong Poon tlc->tlc_max, tlc->tlc_drop); 1391721fffe3SKacheong Poon tlc->tlc_report_time = now; 1392721fffe3SKacheong Poon } 1393721fffe3SKacheong Poon goto error2; 1394721fffe3SKacheong Poon } 1395721fffe3SKacheong Poon tlc_set = B_TRUE; 1396721fffe3SKacheong Poon } 1397721fffe3SKacheong Poon 1398721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock); 1399721fffe3SKacheong Poon 1400721fffe3SKacheong Poon /* 1401721fffe3SKacheong Poon * IP sets ira_sqp to either the senders conn_sqp (for loopback) 1402721fffe3SKacheong Poon * or based on the ring (for packets from GLD). Otherwise it is 1403721fffe3SKacheong Poon * set based on lbolt i.e., a somewhat random number. 1404721fffe3SKacheong Poon */ 1405721fffe3SKacheong Poon ASSERT(ira->ira_sqp != NULL); 1406721fffe3SKacheong Poon new_sqp = ira->ira_sqp; 1407721fffe3SKacheong Poon 1408721fffe3SKacheong Poon econnp = (conn_t *)tcp_get_conn(arg2, tcps); 1409721fffe3SKacheong Poon if (econnp == NULL) 1410721fffe3SKacheong Poon goto error2; 1411721fffe3SKacheong Poon 1412721fffe3SKacheong Poon ASSERT(econnp->conn_netstack == lconnp->conn_netstack); 1413721fffe3SKacheong Poon econnp->conn_sqp = new_sqp; 1414721fffe3SKacheong Poon econnp->conn_initial_sqp = new_sqp; 1415721fffe3SKacheong Poon econnp->conn_ixa->ixa_sqp = new_sqp; 1416721fffe3SKacheong Poon 1417721fffe3SKacheong Poon econnp->conn_fport = tcpha->tha_lport; 1418721fffe3SKacheong Poon econnp->conn_lport = tcpha->tha_fport; 1419721fffe3SKacheong Poon 1420721fffe3SKacheong Poon err = conn_inherit_parent(lconnp, econnp); 1421721fffe3SKacheong Poon if (err != 0) 1422721fffe3SKacheong Poon goto error3; 1423721fffe3SKacheong Poon 1424721fffe3SKacheong Poon /* We already know the laddr of the new connection is ours */ 1425721fffe3SKacheong Poon econnp->conn_ixa->ixa_src_generation = ipst->ips_src_generation; 1426721fffe3SKacheong Poon 1427721fffe3SKacheong Poon ASSERT(OK_32PTR(mp->b_rptr)); 1428721fffe3SKacheong Poon ASSERT(IPH_HDR_VERSION(mp->b_rptr) == IPV4_VERSION || 1429721fffe3SKacheong Poon IPH_HDR_VERSION(mp->b_rptr) == IPV6_VERSION); 1430721fffe3SKacheong Poon 1431721fffe3SKacheong Poon if (lconnp->conn_family == AF_INET) { 1432721fffe3SKacheong Poon ASSERT(IPH_HDR_VERSION(mp->b_rptr) == IPV4_VERSION); 1433721fffe3SKacheong Poon tpi_mp = tcp_conn_create_v4(lconnp, econnp, mp, ira); 1434721fffe3SKacheong Poon } else { 1435721fffe3SKacheong Poon tpi_mp = tcp_conn_create_v6(lconnp, econnp, mp, ira); 1436721fffe3SKacheong Poon } 1437721fffe3SKacheong Poon 1438721fffe3SKacheong Poon if (tpi_mp == NULL) 1439721fffe3SKacheong Poon goto error3; 1440721fffe3SKacheong Poon 1441721fffe3SKacheong Poon eager = econnp->conn_tcp; 1442721fffe3SKacheong Poon eager->tcp_detached = B_TRUE; 1443721fffe3SKacheong Poon SOCK_CONNID_INIT(eager->tcp_connid); 1444721fffe3SKacheong Poon 1445707e74bcSKacheong Poon /* 1446707e74bcSKacheong Poon * Initialize the eager's tcp_t and inherit some parameters from 1447707e74bcSKacheong Poon * the listener. 1448707e74bcSKacheong Poon */ 1449707e74bcSKacheong Poon tcp_init_values(eager, listener); 1450721fffe3SKacheong Poon 1451721fffe3SKacheong Poon ASSERT((econnp->conn_ixa->ixa_flags & 1452721fffe3SKacheong Poon (IXAF_SET_ULP_CKSUM | IXAF_VERIFY_SOURCE | 1453721fffe3SKacheong Poon IXAF_VERIFY_PMTU | IXAF_VERIFY_LSO)) == 1454721fffe3SKacheong Poon (IXAF_SET_ULP_CKSUM | IXAF_VERIFY_SOURCE | 1455721fffe3SKacheong Poon IXAF_VERIFY_PMTU | IXAF_VERIFY_LSO)); 1456721fffe3SKacheong Poon 1457721fffe3SKacheong Poon if (!tcps->tcps_dev_flow_ctl) 1458721fffe3SKacheong Poon econnp->conn_ixa->ixa_flags |= IXAF_NO_DEV_FLOW_CTL; 1459721fffe3SKacheong Poon 1460721fffe3SKacheong Poon /* Prepare for diffing against previous packets */ 1461721fffe3SKacheong Poon eager->tcp_recvifindex = 0; 1462721fffe3SKacheong Poon eager->tcp_recvhops = 0xffffffffU; 1463721fffe3SKacheong Poon 1464721fffe3SKacheong Poon if (!(ira->ira_flags & IRAF_IS_IPV4) && econnp->conn_bound_if == 0) { 1465721fffe3SKacheong Poon if (IN6_IS_ADDR_LINKSCOPE(&econnp->conn_faddr_v6) || 1466721fffe3SKacheong Poon IN6_IS_ADDR_LINKSCOPE(&econnp->conn_laddr_v6)) { 1467721fffe3SKacheong Poon econnp->conn_incoming_ifindex = ifindex; 1468721fffe3SKacheong Poon econnp->conn_ixa->ixa_flags |= IXAF_SCOPEID_SET; 1469721fffe3SKacheong Poon econnp->conn_ixa->ixa_scopeid = ifindex; 1470721fffe3SKacheong Poon } 1471721fffe3SKacheong Poon } 1472721fffe3SKacheong Poon 1473721fffe3SKacheong Poon if ((ira->ira_flags & (IRAF_IS_IPV4|IRAF_IPV4_OPTIONS)) == 1474721fffe3SKacheong Poon (IRAF_IS_IPV4|IRAF_IPV4_OPTIONS) && 1475721fffe3SKacheong Poon tcps->tcps_rev_src_routes) { 1476721fffe3SKacheong Poon ipha_t *ipha = (ipha_t *)mp->b_rptr; 1477721fffe3SKacheong Poon ip_pkt_t *ipp = &econnp->conn_xmit_ipp; 1478721fffe3SKacheong Poon 1479721fffe3SKacheong Poon /* Source routing option copyover (reverse it) */ 1480721fffe3SKacheong Poon err = ip_find_hdr_v4(ipha, ipp, B_TRUE); 1481721fffe3SKacheong Poon if (err != 0) { 1482721fffe3SKacheong Poon freemsg(tpi_mp); 1483721fffe3SKacheong Poon goto error3; 1484721fffe3SKacheong Poon } 1485721fffe3SKacheong Poon ip_pkt_source_route_reverse_v4(ipp); 1486721fffe3SKacheong Poon } 1487721fffe3SKacheong Poon 1488721fffe3SKacheong Poon ASSERT(eager->tcp_conn.tcp_eager_conn_ind == NULL); 1489721fffe3SKacheong Poon ASSERT(!eager->tcp_tconnind_started); 1490721fffe3SKacheong Poon /* 1491721fffe3SKacheong Poon * If the SYN came with a credential, it's a loopback packet or a 1492721fffe3SKacheong Poon * labeled packet; attach the credential to the TPI message. 1493721fffe3SKacheong Poon */ 1494721fffe3SKacheong Poon if (ira->ira_cred != NULL) 1495721fffe3SKacheong Poon mblk_setcred(tpi_mp, ira->ira_cred, ira->ira_cpid); 1496721fffe3SKacheong Poon 1497721fffe3SKacheong Poon eager->tcp_conn.tcp_eager_conn_ind = tpi_mp; 14983e95bd4aSAnders Persson ASSERT(eager->tcp_ordrel_mp == NULL); 14993e95bd4aSAnders Persson 1500721fffe3SKacheong Poon /* Inherit the listener's non-STREAMS flag */ 1501721fffe3SKacheong Poon if (IPCL_IS_NONSTR(lconnp)) { 1502721fffe3SKacheong Poon econnp->conn_flags |= IPCL_NONSTR; 15033e95bd4aSAnders Persson /* All non-STREAMS tcp_ts are sockets */ 15043e95bd4aSAnders Persson eager->tcp_issocket = B_TRUE; 15053e95bd4aSAnders Persson } else { 1506721fffe3SKacheong Poon /* 1507721fffe3SKacheong Poon * Pre-allocate the T_ordrel_ind mblk for TPI socket so that 1508721fffe3SKacheong Poon * at close time, we will always have that to send up. 1509721fffe3SKacheong Poon * Otherwise, we need to do special handling in case the 1510721fffe3SKacheong Poon * allocation fails at that time. 1511721fffe3SKacheong Poon */ 1512721fffe3SKacheong Poon if ((eager->tcp_ordrel_mp = mi_tpi_ordrel_ind()) == NULL) 1513721fffe3SKacheong Poon goto error3; 1514721fffe3SKacheong Poon } 1515721fffe3SKacheong Poon /* 1516721fffe3SKacheong Poon * Now that the IP addresses and ports are setup in econnp we 1517721fffe3SKacheong Poon * can do the IPsec policy work. 1518721fffe3SKacheong Poon */ 1519721fffe3SKacheong Poon if (ira->ira_flags & IRAF_IPSEC_SECURE) { 1520721fffe3SKacheong Poon if (lconnp->conn_policy != NULL) { 1521721fffe3SKacheong Poon /* 1522721fffe3SKacheong Poon * Inherit the policy from the listener; use 1523721fffe3SKacheong Poon * actions from ira 1524721fffe3SKacheong Poon */ 1525721fffe3SKacheong Poon if (!ip_ipsec_policy_inherit(econnp, lconnp, ira)) { 1526721fffe3SKacheong Poon CONN_DEC_REF(econnp); 1527721fffe3SKacheong Poon freemsg(mp); 1528721fffe3SKacheong Poon goto error3; 1529721fffe3SKacheong Poon } 1530721fffe3SKacheong Poon } 1531721fffe3SKacheong Poon } 1532721fffe3SKacheong Poon 1533721fffe3SKacheong Poon /* 1534721fffe3SKacheong Poon * tcp_set_destination() may set tcp_rwnd according to the route 1535721fffe3SKacheong Poon * metrics. If it does not, the eager's receive window will be set 1536721fffe3SKacheong Poon * to the listener's receive window later in this function. 1537721fffe3SKacheong Poon */ 1538721fffe3SKacheong Poon eager->tcp_rwnd = 0; 1539721fffe3SKacheong Poon 1540721fffe3SKacheong Poon if (is_system_labeled()) { 1541721fffe3SKacheong Poon ip_xmit_attr_t *ixa = econnp->conn_ixa; 1542721fffe3SKacheong Poon 1543721fffe3SKacheong Poon ASSERT(ira->ira_tsl != NULL); 1544721fffe3SKacheong Poon /* Discard any old label */ 1545721fffe3SKacheong Poon if (ixa->ixa_free_flags & IXA_FREE_TSL) { 1546721fffe3SKacheong Poon ASSERT(ixa->ixa_tsl != NULL); 1547721fffe3SKacheong Poon label_rele(ixa->ixa_tsl); 1548721fffe3SKacheong Poon ixa->ixa_free_flags &= ~IXA_FREE_TSL; 1549721fffe3SKacheong Poon ixa->ixa_tsl = NULL; 1550721fffe3SKacheong Poon } 1551721fffe3SKacheong Poon if ((lconnp->conn_mlp_type != mlptSingle || 1552721fffe3SKacheong Poon lconnp->conn_mac_mode != CONN_MAC_DEFAULT) && 1553721fffe3SKacheong Poon ira->ira_tsl != NULL) { 1554721fffe3SKacheong Poon /* 1555721fffe3SKacheong Poon * If this is an MLP connection or a MAC-Exempt 1556721fffe3SKacheong Poon * connection with an unlabeled node, packets are to be 1557721fffe3SKacheong Poon * exchanged using the security label of the received 1558721fffe3SKacheong Poon * SYN packet instead of the server application's label. 1559721fffe3SKacheong Poon * tsol_check_dest called from ip_set_destination 1560721fffe3SKacheong Poon * might later update TSF_UNLABELED by replacing 1561721fffe3SKacheong Poon * ixa_tsl with a new label. 1562721fffe3SKacheong Poon */ 1563721fffe3SKacheong Poon label_hold(ira->ira_tsl); 1564721fffe3SKacheong Poon ip_xmit_attr_replace_tsl(ixa, ira->ira_tsl); 1565721fffe3SKacheong Poon DTRACE_PROBE2(mlp_syn_accept, conn_t *, 1566721fffe3SKacheong Poon econnp, ts_label_t *, ixa->ixa_tsl) 1567721fffe3SKacheong Poon } else { 1568721fffe3SKacheong Poon ixa->ixa_tsl = crgetlabel(econnp->conn_cred); 1569721fffe3SKacheong Poon DTRACE_PROBE2(syn_accept, conn_t *, 1570721fffe3SKacheong Poon econnp, ts_label_t *, ixa->ixa_tsl) 1571721fffe3SKacheong Poon } 1572721fffe3SKacheong Poon /* 1573721fffe3SKacheong Poon * conn_connect() called from tcp_set_destination will verify 1574721fffe3SKacheong Poon * the destination is allowed to receive packets at the 1575721fffe3SKacheong Poon * security label of the SYN-ACK we are generating. As part of 1576721fffe3SKacheong Poon * that, tsol_check_dest() may create a new effective label for 1577721fffe3SKacheong Poon * this connection. 1578721fffe3SKacheong Poon * Finally conn_connect() will call conn_update_label. 1579721fffe3SKacheong Poon * All that remains for TCP to do is to call 1580721fffe3SKacheong Poon * conn_build_hdr_template which is done as part of 1581721fffe3SKacheong Poon * tcp_set_destination. 1582721fffe3SKacheong Poon */ 1583721fffe3SKacheong Poon } 1584721fffe3SKacheong Poon 1585721fffe3SKacheong Poon /* 1586721fffe3SKacheong Poon * Since we will clear tcp_listener before we clear tcp_detached 1587721fffe3SKacheong Poon * in the accept code we need tcp_hard_binding aka tcp_accept_inprogress 15883e95bd4aSAnders Persson * so we can tell a TCP_IS_DETACHED_NONEAGER apart. 1589721fffe3SKacheong Poon */ 1590721fffe3SKacheong Poon eager->tcp_hard_binding = B_TRUE; 1591721fffe3SKacheong Poon 1592721fffe3SKacheong Poon tcp_bind_hash_insert(&tcps->tcps_bind_fanout[ 1593721fffe3SKacheong Poon TCP_BIND_HASH(econnp->conn_lport)], eager, 0); 1594721fffe3SKacheong Poon 1595721fffe3SKacheong Poon CL_INET_CONNECT(econnp, B_FALSE, err); 1596721fffe3SKacheong Poon if (err != 0) { 1597721fffe3SKacheong Poon tcp_bind_hash_remove(eager); 1598721fffe3SKacheong Poon goto error3; 1599721fffe3SKacheong Poon } 1600721fffe3SKacheong Poon 1601721fffe3SKacheong Poon SOCK_CONNID_BUMP(eager->tcp_connid); 1602721fffe3SKacheong Poon 1603721fffe3SKacheong Poon /* 1604721fffe3SKacheong Poon * Adapt our mss, ttl, ... based on the remote address. 1605721fffe3SKacheong Poon */ 1606721fffe3SKacheong Poon 1607721fffe3SKacheong Poon if (tcp_set_destination(eager) != 0) { 1608721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpAttemptFails); 1609721fffe3SKacheong Poon /* Undo the bind_hash_insert */ 1610721fffe3SKacheong Poon tcp_bind_hash_remove(eager); 1611721fffe3SKacheong Poon goto error3; 1612721fffe3SKacheong Poon } 1613721fffe3SKacheong Poon 1614721fffe3SKacheong Poon /* Process all TCP options. */ 1615721fffe3SKacheong Poon tcp_process_options(eager, tcpha); 1616721fffe3SKacheong Poon 1617721fffe3SKacheong Poon /* Is the other end ECN capable? */ 1618721fffe3SKacheong Poon if (tcps->tcps_ecn_permitted >= 1 && 1619721fffe3SKacheong Poon (tcpha->tha_flags & (TH_ECE|TH_CWR)) == (TH_ECE|TH_CWR)) { 1620721fffe3SKacheong Poon eager->tcp_ecn_ok = B_TRUE; 1621721fffe3SKacheong Poon } 1622721fffe3SKacheong Poon 1623721fffe3SKacheong Poon /* 1624721fffe3SKacheong Poon * The listener's conn_rcvbuf should be the default window size or a 1625721fffe3SKacheong Poon * window size changed via SO_RCVBUF option. First round up the 1626721fffe3SKacheong Poon * eager's tcp_rwnd to the nearest MSS. Then find out the window 1627721fffe3SKacheong Poon * scale option value if needed. Call tcp_rwnd_set() to finish the 1628721fffe3SKacheong Poon * setting. 1629721fffe3SKacheong Poon * 1630721fffe3SKacheong Poon * Note if there is a rpipe metric associated with the remote host, 1631721fffe3SKacheong Poon * we should not inherit receive window size from listener. 1632721fffe3SKacheong Poon */ 1633721fffe3SKacheong Poon eager->tcp_rwnd = MSS_ROUNDUP( 1634721fffe3SKacheong Poon (eager->tcp_rwnd == 0 ? econnp->conn_rcvbuf : 1635721fffe3SKacheong Poon eager->tcp_rwnd), eager->tcp_mss); 1636721fffe3SKacheong Poon if (eager->tcp_snd_ws_ok) 1637721fffe3SKacheong Poon tcp_set_ws_value(eager); 1638721fffe3SKacheong Poon /* 1639721fffe3SKacheong Poon * Note that this is the only place tcp_rwnd_set() is called for 1640721fffe3SKacheong Poon * accepting a connection. We need to call it here instead of 1641721fffe3SKacheong Poon * after the 3-way handshake because we need to tell the other 1642721fffe3SKacheong Poon * side our rwnd in the SYN-ACK segment. 1643721fffe3SKacheong Poon */ 1644721fffe3SKacheong Poon (void) tcp_rwnd_set(eager, eager->tcp_rwnd); 1645721fffe3SKacheong Poon 1646721fffe3SKacheong Poon ASSERT(eager->tcp_connp->conn_rcvbuf != 0 && 1647721fffe3SKacheong Poon eager->tcp_connp->conn_rcvbuf == eager->tcp_rwnd); 1648721fffe3SKacheong Poon 1649721fffe3SKacheong Poon ASSERT(econnp->conn_rcvbuf != 0 && 1650721fffe3SKacheong Poon econnp->conn_rcvbuf == eager->tcp_rwnd); 1651721fffe3SKacheong Poon 1652721fffe3SKacheong Poon /* Put a ref on the listener for the eager. */ 1653721fffe3SKacheong Poon CONN_INC_REF(lconnp); 1654721fffe3SKacheong Poon mutex_enter(&listener->tcp_eager_lock); 1655721fffe3SKacheong Poon listener->tcp_eager_next_q0->tcp_eager_prev_q0 = eager; 1656721fffe3SKacheong Poon eager->tcp_eager_next_q0 = listener->tcp_eager_next_q0; 1657721fffe3SKacheong Poon listener->tcp_eager_next_q0 = eager; 1658721fffe3SKacheong Poon eager->tcp_eager_prev_q0 = listener; 1659721fffe3SKacheong Poon 1660721fffe3SKacheong Poon /* Set tcp_listener before adding it to tcp_conn_fanout */ 1661721fffe3SKacheong Poon eager->tcp_listener = listener; 1662721fffe3SKacheong Poon eager->tcp_saved_listener = listener; 1663721fffe3SKacheong Poon 1664721fffe3SKacheong Poon /* 1665721fffe3SKacheong Poon * Set tcp_listen_cnt so that when the connection is done, the counter 1666721fffe3SKacheong Poon * is decremented. 1667721fffe3SKacheong Poon */ 1668721fffe3SKacheong Poon eager->tcp_listen_cnt = listener->tcp_listen_cnt; 1669721fffe3SKacheong Poon 1670721fffe3SKacheong Poon /* 1671721fffe3SKacheong Poon * Tag this detached tcp vector for later retrieval 1672721fffe3SKacheong Poon * by our listener client in tcp_accept(). 1673721fffe3SKacheong Poon */ 1674721fffe3SKacheong Poon eager->tcp_conn_req_seqnum = listener->tcp_conn_req_seqnum; 1675721fffe3SKacheong Poon listener->tcp_conn_req_cnt_q0++; 1676721fffe3SKacheong Poon if (++listener->tcp_conn_req_seqnum == -1) { 1677721fffe3SKacheong Poon /* 1678721fffe3SKacheong Poon * -1 is "special" and defined in TPI as something 1679721fffe3SKacheong Poon * that should never be used in T_CONN_IND 1680721fffe3SKacheong Poon */ 1681721fffe3SKacheong Poon ++listener->tcp_conn_req_seqnum; 1682721fffe3SKacheong Poon } 1683721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock); 1684721fffe3SKacheong Poon 1685721fffe3SKacheong Poon if (listener->tcp_syn_defense) { 1686721fffe3SKacheong Poon /* Don't drop the SYN that comes from a good IP source */ 1687721fffe3SKacheong Poon ipaddr_t *addr_cache; 1688721fffe3SKacheong Poon 1689721fffe3SKacheong Poon addr_cache = (ipaddr_t *)(listener->tcp_ip_addr_cache); 1690721fffe3SKacheong Poon if (addr_cache != NULL && econnp->conn_faddr_v4 == 1691721fffe3SKacheong Poon addr_cache[IP_ADDR_CACHE_HASH(econnp->conn_faddr_v4)]) { 1692721fffe3SKacheong Poon eager->tcp_dontdrop = B_TRUE; 1693721fffe3SKacheong Poon } 1694721fffe3SKacheong Poon } 1695721fffe3SKacheong Poon 1696721fffe3SKacheong Poon /* 1697721fffe3SKacheong Poon * We need to insert the eager in its own perimeter but as soon 1698721fffe3SKacheong Poon * as we do that, we expose the eager to the classifier and 1699721fffe3SKacheong Poon * should not touch any field outside the eager's perimeter. 1700721fffe3SKacheong Poon * So do all the work necessary before inserting the eager 1701721fffe3SKacheong Poon * in its own perimeter. Be optimistic that conn_connect() 1702721fffe3SKacheong Poon * will succeed but undo everything if it fails. 1703721fffe3SKacheong Poon */ 1704721fffe3SKacheong Poon seg_seq = ntohl(tcpha->tha_seq); 1705721fffe3SKacheong Poon eager->tcp_irs = seg_seq; 1706721fffe3SKacheong Poon eager->tcp_rack = seg_seq; 1707721fffe3SKacheong Poon eager->tcp_rnxt = seg_seq + 1; 1708721fffe3SKacheong Poon eager->tcp_tcpha->tha_ack = htonl(eager->tcp_rnxt); 1709721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpPassiveOpens); 1710721fffe3SKacheong Poon eager->tcp_state = TCPS_SYN_RCVD; 17119cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL, ip_xmit_attr_t *, 17129cd928feSAlan Maguire econnp->conn_ixa, void, NULL, tcp_t *, eager, void, NULL, 17139cd928feSAlan Maguire int32_t, TCPS_LISTEN); 17149cd928feSAlan Maguire 1715721fffe3SKacheong Poon mp1 = tcp_xmit_mp(eager, eager->tcp_xmit_head, eager->tcp_mss, 1716721fffe3SKacheong Poon NULL, NULL, eager->tcp_iss, B_FALSE, NULL, B_FALSE); 1717721fffe3SKacheong Poon if (mp1 == NULL) { 1718721fffe3SKacheong Poon /* 1719721fffe3SKacheong Poon * Increment the ref count as we are going to 1720721fffe3SKacheong Poon * enqueueing an mp in squeue 1721721fffe3SKacheong Poon */ 1722721fffe3SKacheong Poon CONN_INC_REF(econnp); 1723721fffe3SKacheong Poon goto error; 1724721fffe3SKacheong Poon } 1725721fffe3SKacheong Poon 1726721fffe3SKacheong Poon /* 1727721fffe3SKacheong Poon * We need to start the rto timer. In normal case, we start 1728721fffe3SKacheong Poon * the timer after sending the packet on the wire (or at 1729721fffe3SKacheong Poon * least believing that packet was sent by waiting for 1730721fffe3SKacheong Poon * conn_ip_output() to return). Since this is the first packet 1731721fffe3SKacheong Poon * being sent on the wire for the eager, our initial tcp_rto 1732721fffe3SKacheong Poon * is at least tcp_rexmit_interval_min which is a fairly 1733721fffe3SKacheong Poon * large value to allow the algorithm to adjust slowly to large 1734721fffe3SKacheong Poon * fluctuations of RTT during first few transmissions. 1735721fffe3SKacheong Poon * 1736721fffe3SKacheong Poon * Starting the timer first and then sending the packet in this 1737721fffe3SKacheong Poon * case shouldn't make much difference since tcp_rexmit_interval_min 1738721fffe3SKacheong Poon * is of the order of several 100ms and starting the timer 1739721fffe3SKacheong Poon * first and then sending the packet will result in difference 1740721fffe3SKacheong Poon * of few micro seconds. 1741721fffe3SKacheong Poon * 1742721fffe3SKacheong Poon * Without this optimization, we are forced to hold the fanout 1743721fffe3SKacheong Poon * lock across the ipcl_bind_insert() and sending the packet 1744721fffe3SKacheong Poon * so that we don't race against an incoming packet (maybe RST) 1745721fffe3SKacheong Poon * for this eager. 1746721fffe3SKacheong Poon * 1747721fffe3SKacheong Poon * It is necessary to acquire an extra reference on the eager 1748721fffe3SKacheong Poon * at this point and hold it until after tcp_send_data() to 1749721fffe3SKacheong Poon * ensure against an eager close race. 1750721fffe3SKacheong Poon */ 1751721fffe3SKacheong Poon 1752721fffe3SKacheong Poon CONN_INC_REF(econnp); 1753721fffe3SKacheong Poon 1754721fffe3SKacheong Poon TCP_TIMER_RESTART(eager, eager->tcp_rto); 1755721fffe3SKacheong Poon 1756721fffe3SKacheong Poon /* 1757721fffe3SKacheong Poon * Insert the eager in its own perimeter now. We are ready to deal 1758721fffe3SKacheong Poon * with any packets on eager. 1759721fffe3SKacheong Poon */ 1760721fffe3SKacheong Poon if (ipcl_conn_insert(econnp) != 0) 1761721fffe3SKacheong Poon goto error; 1762721fffe3SKacheong Poon 1763721fffe3SKacheong Poon ASSERT(econnp->conn_ixa->ixa_notify_cookie == econnp->conn_tcp); 1764721fffe3SKacheong Poon freemsg(mp); 1765721fffe3SKacheong Poon /* 1766721fffe3SKacheong Poon * Send the SYN-ACK. Use the right squeue so that conn_ixa is 1767721fffe3SKacheong Poon * only used by one thread at a time. 1768721fffe3SKacheong Poon */ 1769721fffe3SKacheong Poon if (econnp->conn_sqp == lconnp->conn_sqp) { 17709cd928feSAlan Maguire DTRACE_TCP5(send, mblk_t *, NULL, ip_xmit_attr_t *, 17719cd928feSAlan Maguire econnp->conn_ixa, __dtrace_tcp_void_ip_t *, mp1->b_rptr, 17729cd928feSAlan Maguire tcp_t *, eager, __dtrace_tcp_tcph_t *, 17739cd928feSAlan Maguire &mp1->b_rptr[econnp->conn_ixa->ixa_ip_hdr_length]); 1774721fffe3SKacheong Poon (void) conn_ip_output(mp1, econnp->conn_ixa); 1775721fffe3SKacheong Poon CONN_DEC_REF(econnp); 1776721fffe3SKacheong Poon } else { 1777721fffe3SKacheong Poon SQUEUE_ENTER_ONE(econnp->conn_sqp, mp1, tcp_send_synack, 1778721fffe3SKacheong Poon econnp, NULL, SQ_PROCESS, SQTAG_TCP_SEND_SYNACK); 1779721fffe3SKacheong Poon } 1780721fffe3SKacheong Poon return; 1781721fffe3SKacheong Poon error: 1782721fffe3SKacheong Poon freemsg(mp1); 1783721fffe3SKacheong Poon eager->tcp_closemp_used = B_TRUE; 1784721fffe3SKacheong Poon TCP_DEBUG_GETPCSTACK(eager->tcmp_stk, 15); 1785721fffe3SKacheong Poon mp1 = &eager->tcp_closemp; 1786721fffe3SKacheong Poon SQUEUE_ENTER_ONE(econnp->conn_sqp, mp1, tcp_eager_kill, 1787721fffe3SKacheong Poon econnp, NULL, SQ_FILL, SQTAG_TCP_CONN_REQ_2); 1788721fffe3SKacheong Poon 1789721fffe3SKacheong Poon /* 1790721fffe3SKacheong Poon * If a connection already exists, send the mp to that connections so 1791721fffe3SKacheong Poon * that it can be appropriately dealt with. 1792721fffe3SKacheong Poon */ 1793721fffe3SKacheong Poon ipst = tcps->tcps_netstack->netstack_ip; 1794721fffe3SKacheong Poon 1795721fffe3SKacheong Poon if ((econnp = ipcl_classify(mp, ira, ipst)) != NULL) { 1796721fffe3SKacheong Poon if (!IPCL_IS_CONNECTED(econnp)) { 1797721fffe3SKacheong Poon /* 1798721fffe3SKacheong Poon * Something bad happened. ipcl_conn_insert() 1799721fffe3SKacheong Poon * failed because a connection already existed 1800721fffe3SKacheong Poon * in connected hash but we can't find it 1801721fffe3SKacheong Poon * anymore (someone blew it away). Just 1802721fffe3SKacheong Poon * free this message and hopefully remote 1803721fffe3SKacheong Poon * will retransmit at which time the SYN can be 1804721fffe3SKacheong Poon * treated as a new connection or dealth with 1805721fffe3SKacheong Poon * a TH_RST if a connection already exists. 1806721fffe3SKacheong Poon */ 1807721fffe3SKacheong Poon CONN_DEC_REF(econnp); 1808721fffe3SKacheong Poon freemsg(mp); 1809721fffe3SKacheong Poon } else { 1810721fffe3SKacheong Poon SQUEUE_ENTER_ONE(econnp->conn_sqp, mp, tcp_input_data, 1811721fffe3SKacheong Poon econnp, ira, SQ_FILL, SQTAG_TCP_CONN_REQ_1); 1812721fffe3SKacheong Poon } 1813721fffe3SKacheong Poon } else { 1814721fffe3SKacheong Poon /* Nobody wants this packet */ 1815721fffe3SKacheong Poon freemsg(mp); 1816721fffe3SKacheong Poon } 1817721fffe3SKacheong Poon return; 1818721fffe3SKacheong Poon error3: 1819721fffe3SKacheong Poon CONN_DEC_REF(econnp); 1820721fffe3SKacheong Poon error2: 1821721fffe3SKacheong Poon freemsg(mp); 1822721fffe3SKacheong Poon if (tlc_set) 18231a5e258fSJosef 'Jeff' Sipek atomic_dec_32(&listener->tcp_listen_cnt->tlc_cnt); 1824721fffe3SKacheong Poon } 1825721fffe3SKacheong Poon 1826721fffe3SKacheong Poon /* 1827721fffe3SKacheong Poon * In an ideal case of vertical partition in NUMA architecture, its 1828721fffe3SKacheong Poon * beneficial to have the listener and all the incoming connections 1829721fffe3SKacheong Poon * tied to the same squeue. The other constraint is that incoming 1830721fffe3SKacheong Poon * connections should be tied to the squeue attached to interrupted 1831721fffe3SKacheong Poon * CPU for obvious locality reason so this leaves the listener to 1832721fffe3SKacheong Poon * be tied to the same squeue. Our only problem is that when listener 1833721fffe3SKacheong Poon * is binding, the CPU that will get interrupted by the NIC whose 1834721fffe3SKacheong Poon * IP address the listener is binding to is not even known. So 1835721fffe3SKacheong Poon * the code below allows us to change that binding at the time the 1836721fffe3SKacheong Poon * CPU is interrupted by virtue of incoming connection's squeue. 1837721fffe3SKacheong Poon * 1838721fffe3SKacheong Poon * This is usefull only in case of a listener bound to a specific IP 1839721fffe3SKacheong Poon * address. For other kind of listeners, they get bound the 1840721fffe3SKacheong Poon * very first time and there is no attempt to rebind them. 1841721fffe3SKacheong Poon */ 1842721fffe3SKacheong Poon void 1843721fffe3SKacheong Poon tcp_input_listener_unbound(void *arg, mblk_t *mp, void *arg2, 1844721fffe3SKacheong Poon ip_recv_attr_t *ira) 1845721fffe3SKacheong Poon { 1846721fffe3SKacheong Poon conn_t *connp = (conn_t *)arg; 1847721fffe3SKacheong Poon squeue_t *sqp = (squeue_t *)arg2; 1848721fffe3SKacheong Poon squeue_t *new_sqp; 1849721fffe3SKacheong Poon uint32_t conn_flags; 1850721fffe3SKacheong Poon 1851721fffe3SKacheong Poon /* 1852721fffe3SKacheong Poon * IP sets ira_sqp to either the senders conn_sqp (for loopback) 1853721fffe3SKacheong Poon * or based on the ring (for packets from GLD). Otherwise it is 1854721fffe3SKacheong Poon * set based on lbolt i.e., a somewhat random number. 1855721fffe3SKacheong Poon */ 1856721fffe3SKacheong Poon ASSERT(ira->ira_sqp != NULL); 1857721fffe3SKacheong Poon new_sqp = ira->ira_sqp; 1858721fffe3SKacheong Poon 1859721fffe3SKacheong Poon if (connp->conn_fanout == NULL) 1860721fffe3SKacheong Poon goto done; 1861721fffe3SKacheong Poon 1862721fffe3SKacheong Poon if (!(connp->conn_flags & IPCL_FULLY_BOUND)) { 1863721fffe3SKacheong Poon mutex_enter(&connp->conn_fanout->connf_lock); 1864721fffe3SKacheong Poon mutex_enter(&connp->conn_lock); 1865721fffe3SKacheong Poon /* 1866721fffe3SKacheong Poon * No one from read or write side can access us now 1867721fffe3SKacheong Poon * except for already queued packets on this squeue. 1868721fffe3SKacheong Poon * But since we haven't changed the squeue yet, they 1869721fffe3SKacheong Poon * can't execute. If they are processed after we have 1870721fffe3SKacheong Poon * changed the squeue, they are sent back to the 1871721fffe3SKacheong Poon * correct squeue down below. 1872721fffe3SKacheong Poon * But a listner close can race with processing of 1873721fffe3SKacheong Poon * incoming SYN. If incoming SYN processing changes 1874721fffe3SKacheong Poon * the squeue then the listener close which is waiting 1875721fffe3SKacheong Poon * to enter the squeue would operate on the wrong 1876721fffe3SKacheong Poon * squeue. Hence we don't change the squeue here unless 1877721fffe3SKacheong Poon * the refcount is exactly the minimum refcount. The 1878721fffe3SKacheong Poon * minimum refcount of 4 is counted as - 1 each for 1879721fffe3SKacheong Poon * TCP and IP, 1 for being in the classifier hash, and 1880721fffe3SKacheong Poon * 1 for the mblk being processed. 1881721fffe3SKacheong Poon */ 1882721fffe3SKacheong Poon 1883721fffe3SKacheong Poon if (connp->conn_ref != 4 || 1884721fffe3SKacheong Poon connp->conn_tcp->tcp_state != TCPS_LISTEN) { 1885721fffe3SKacheong Poon mutex_exit(&connp->conn_lock); 1886721fffe3SKacheong Poon mutex_exit(&connp->conn_fanout->connf_lock); 1887721fffe3SKacheong Poon goto done; 1888721fffe3SKacheong Poon } 1889721fffe3SKacheong Poon if (connp->conn_sqp != new_sqp) { 1890721fffe3SKacheong Poon while (connp->conn_sqp != new_sqp) 189175d94465SJosef 'Jeff' Sipek (void) atomic_cas_ptr(&connp->conn_sqp, sqp, 189275d94465SJosef 'Jeff' Sipek new_sqp); 1893721fffe3SKacheong Poon /* No special MT issues for outbound ixa_sqp hint */ 1894721fffe3SKacheong Poon connp->conn_ixa->ixa_sqp = new_sqp; 1895721fffe3SKacheong Poon } 1896721fffe3SKacheong Poon 1897721fffe3SKacheong Poon do { 1898721fffe3SKacheong Poon conn_flags = connp->conn_flags; 1899721fffe3SKacheong Poon conn_flags |= IPCL_FULLY_BOUND; 190075d94465SJosef 'Jeff' Sipek (void) atomic_cas_32(&connp->conn_flags, 190175d94465SJosef 'Jeff' Sipek connp->conn_flags, conn_flags); 1902721fffe3SKacheong Poon } while (!(connp->conn_flags & IPCL_FULLY_BOUND)); 1903721fffe3SKacheong Poon 1904721fffe3SKacheong Poon mutex_exit(&connp->conn_fanout->connf_lock); 1905721fffe3SKacheong Poon mutex_exit(&connp->conn_lock); 1906721fffe3SKacheong Poon 1907721fffe3SKacheong Poon /* 1908721fffe3SKacheong Poon * Assume we have picked a good squeue for the listener. Make 1909721fffe3SKacheong Poon * subsequent SYNs not try to change the squeue. 1910721fffe3SKacheong Poon */ 1911721fffe3SKacheong Poon connp->conn_recv = tcp_input_listener; 1912721fffe3SKacheong Poon } 1913721fffe3SKacheong Poon 1914721fffe3SKacheong Poon done: 1915721fffe3SKacheong Poon if (connp->conn_sqp != sqp) { 1916721fffe3SKacheong Poon CONN_INC_REF(connp); 1917721fffe3SKacheong Poon SQUEUE_ENTER_ONE(connp->conn_sqp, mp, connp->conn_recv, connp, 1918721fffe3SKacheong Poon ira, SQ_FILL, SQTAG_TCP_CONN_REQ_UNBOUND); 1919721fffe3SKacheong Poon } else { 1920721fffe3SKacheong Poon tcp_input_listener(connp, mp, sqp, ira); 1921721fffe3SKacheong Poon } 1922721fffe3SKacheong Poon } 1923721fffe3SKacheong Poon 1924721fffe3SKacheong Poon /* 1925721fffe3SKacheong Poon * Send up all messages queued on tcp_rcv_list. 1926721fffe3SKacheong Poon */ 1927721fffe3SKacheong Poon uint_t 1928721fffe3SKacheong Poon tcp_rcv_drain(tcp_t *tcp) 1929721fffe3SKacheong Poon { 1930721fffe3SKacheong Poon mblk_t *mp; 1931721fffe3SKacheong Poon uint_t ret = 0; 1932721fffe3SKacheong Poon #ifdef DEBUG 1933721fffe3SKacheong Poon uint_t cnt = 0; 1934721fffe3SKacheong Poon #endif 1935721fffe3SKacheong Poon queue_t *q = tcp->tcp_connp->conn_rq; 1936721fffe3SKacheong Poon 1937721fffe3SKacheong Poon /* Can't drain on an eager connection */ 1938721fffe3SKacheong Poon if (tcp->tcp_listener != NULL) 1939721fffe3SKacheong Poon return (ret); 1940721fffe3SKacheong Poon 1941721fffe3SKacheong Poon /* Can't be a non-STREAMS connection */ 1942721fffe3SKacheong Poon ASSERT(!IPCL_IS_NONSTR(tcp->tcp_connp)); 1943721fffe3SKacheong Poon 1944721fffe3SKacheong Poon /* No need for the push timer now. */ 1945721fffe3SKacheong Poon if (tcp->tcp_push_tid != 0) { 1946721fffe3SKacheong Poon (void) TCP_TIMER_CANCEL(tcp, tcp->tcp_push_tid); 1947721fffe3SKacheong Poon tcp->tcp_push_tid = 0; 1948721fffe3SKacheong Poon } 1949721fffe3SKacheong Poon 1950721fffe3SKacheong Poon /* 1951721fffe3SKacheong Poon * Handle two cases here: we are currently fused or we were 1952721fffe3SKacheong Poon * previously fused and have some urgent data to be delivered 1953721fffe3SKacheong Poon * upstream. The latter happens because we either ran out of 1954721fffe3SKacheong Poon * memory or were detached and therefore sending the SIGURG was 1955721fffe3SKacheong Poon * deferred until this point. In either case we pass control 1956721fffe3SKacheong Poon * over to tcp_fuse_rcv_drain() since it may need to complete 1957721fffe3SKacheong Poon * some work. 1958721fffe3SKacheong Poon */ 1959721fffe3SKacheong Poon if ((tcp->tcp_fused || tcp->tcp_fused_sigurg)) { 1960721fffe3SKacheong Poon if (tcp_fuse_rcv_drain(q, tcp, tcp->tcp_fused ? NULL : 1961721fffe3SKacheong Poon &tcp->tcp_fused_sigurg_mp)) 1962721fffe3SKacheong Poon return (ret); 1963721fffe3SKacheong Poon } 1964721fffe3SKacheong Poon 1965721fffe3SKacheong Poon while ((mp = tcp->tcp_rcv_list) != NULL) { 1966721fffe3SKacheong Poon tcp->tcp_rcv_list = mp->b_next; 1967721fffe3SKacheong Poon mp->b_next = NULL; 1968721fffe3SKacheong Poon #ifdef DEBUG 1969721fffe3SKacheong Poon cnt += msgdsize(mp); 1970721fffe3SKacheong Poon #endif 1971721fffe3SKacheong Poon putnext(q, mp); 1972721fffe3SKacheong Poon } 1973721fffe3SKacheong Poon #ifdef DEBUG 1974721fffe3SKacheong Poon ASSERT(cnt == tcp->tcp_rcv_cnt); 1975721fffe3SKacheong Poon #endif 1976721fffe3SKacheong Poon tcp->tcp_rcv_last_head = NULL; 1977721fffe3SKacheong Poon tcp->tcp_rcv_last_tail = NULL; 1978721fffe3SKacheong Poon tcp->tcp_rcv_cnt = 0; 1979721fffe3SKacheong Poon 1980721fffe3SKacheong Poon if (canputnext(q)) 1981721fffe3SKacheong Poon return (tcp_rwnd_reopen(tcp)); 1982721fffe3SKacheong Poon 1983721fffe3SKacheong Poon return (ret); 1984721fffe3SKacheong Poon } 1985721fffe3SKacheong Poon 1986721fffe3SKacheong Poon /* 1987721fffe3SKacheong Poon * Queue data on tcp_rcv_list which is a b_next chain. 1988721fffe3SKacheong Poon * tcp_rcv_last_head/tail is the last element of this chain. 1989721fffe3SKacheong Poon * Each element of the chain is a b_cont chain. 1990721fffe3SKacheong Poon * 1991721fffe3SKacheong Poon * M_DATA messages are added to the current element. 1992721fffe3SKacheong Poon * Other messages are added as new (b_next) elements. 1993721fffe3SKacheong Poon */ 1994721fffe3SKacheong Poon void 1995721fffe3SKacheong Poon tcp_rcv_enqueue(tcp_t *tcp, mblk_t *mp, uint_t seg_len, cred_t *cr) 1996721fffe3SKacheong Poon { 1997721fffe3SKacheong Poon ASSERT(seg_len == msgdsize(mp)); 1998721fffe3SKacheong Poon ASSERT(tcp->tcp_rcv_list == NULL || tcp->tcp_rcv_last_head != NULL); 1999721fffe3SKacheong Poon 2000721fffe3SKacheong Poon if (is_system_labeled()) { 2001721fffe3SKacheong Poon ASSERT(cr != NULL || msg_getcred(mp, NULL) != NULL); 2002721fffe3SKacheong Poon /* 2003721fffe3SKacheong Poon * Provide for protocols above TCP such as RPC. NOPID leaves 2004721fffe3SKacheong Poon * db_cpid unchanged. 2005721fffe3SKacheong Poon * The cred could have already been set. 2006721fffe3SKacheong Poon */ 2007721fffe3SKacheong Poon if (cr != NULL) 2008721fffe3SKacheong Poon mblk_setcred(mp, cr, NOPID); 2009721fffe3SKacheong Poon } 2010721fffe3SKacheong Poon 2011721fffe3SKacheong Poon if (tcp->tcp_rcv_list == NULL) { 2012721fffe3SKacheong Poon ASSERT(tcp->tcp_rcv_last_head == NULL); 2013721fffe3SKacheong Poon tcp->tcp_rcv_list = mp; 2014721fffe3SKacheong Poon tcp->tcp_rcv_last_head = mp; 2015721fffe3SKacheong Poon } else if (DB_TYPE(mp) == DB_TYPE(tcp->tcp_rcv_last_head)) { 2016721fffe3SKacheong Poon tcp->tcp_rcv_last_tail->b_cont = mp; 2017721fffe3SKacheong Poon } else { 2018721fffe3SKacheong Poon tcp->tcp_rcv_last_head->b_next = mp; 2019721fffe3SKacheong Poon tcp->tcp_rcv_last_head = mp; 2020721fffe3SKacheong Poon } 2021721fffe3SKacheong Poon 2022721fffe3SKacheong Poon while (mp->b_cont) 2023721fffe3SKacheong Poon mp = mp->b_cont; 2024721fffe3SKacheong Poon 2025721fffe3SKacheong Poon tcp->tcp_rcv_last_tail = mp; 2026721fffe3SKacheong Poon tcp->tcp_rcv_cnt += seg_len; 2027721fffe3SKacheong Poon tcp->tcp_rwnd -= seg_len; 2028721fffe3SKacheong Poon } 2029721fffe3SKacheong Poon 2030721fffe3SKacheong Poon /* Generate an ACK-only (no data) segment for a TCP endpoint */ 2031721fffe3SKacheong Poon mblk_t * 2032721fffe3SKacheong Poon tcp_ack_mp(tcp_t *tcp) 2033721fffe3SKacheong Poon { 2034721fffe3SKacheong Poon uint32_t seq_no; 2035721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps; 2036721fffe3SKacheong Poon conn_t *connp = tcp->tcp_connp; 2037721fffe3SKacheong Poon 2038721fffe3SKacheong Poon /* 2039721fffe3SKacheong Poon * There are a few cases to be considered while setting the sequence no. 2040721fffe3SKacheong Poon * Essentially, we can come here while processing an unacceptable pkt 2041721fffe3SKacheong Poon * in the TCPS_SYN_RCVD state, in which case we set the sequence number 2042721fffe3SKacheong Poon * to snxt (per RFC 793), note the swnd wouldn't have been set yet. 2043721fffe3SKacheong Poon * If we are here for a zero window probe, stick with suna. In all 2044721fffe3SKacheong Poon * other cases, we check if suna + swnd encompasses snxt and set 2045721fffe3SKacheong Poon * the sequence number to snxt, if so. If snxt falls outside the 2046721fffe3SKacheong Poon * window (the receiver probably shrunk its window), we will go with 2047721fffe3SKacheong Poon * suna + swnd, otherwise the sequence no will be unacceptable to the 2048721fffe3SKacheong Poon * receiver. 2049721fffe3SKacheong Poon */ 2050721fffe3SKacheong Poon if (tcp->tcp_zero_win_probe) { 2051721fffe3SKacheong Poon seq_no = tcp->tcp_suna; 2052721fffe3SKacheong Poon } else if (tcp->tcp_state == TCPS_SYN_RCVD) { 2053721fffe3SKacheong Poon ASSERT(tcp->tcp_swnd == 0); 2054721fffe3SKacheong Poon seq_no = tcp->tcp_snxt; 2055721fffe3SKacheong Poon } else { 2056721fffe3SKacheong Poon seq_no = SEQ_GT(tcp->tcp_snxt, 2057721fffe3SKacheong Poon (tcp->tcp_suna + tcp->tcp_swnd)) ? 2058721fffe3SKacheong Poon (tcp->tcp_suna + tcp->tcp_swnd) : tcp->tcp_snxt; 2059721fffe3SKacheong Poon } 2060721fffe3SKacheong Poon 2061721fffe3SKacheong Poon if (tcp->tcp_valid_bits) { 2062721fffe3SKacheong Poon /* 2063721fffe3SKacheong Poon * For the complex case where we have to send some 2064721fffe3SKacheong Poon * controls (FIN or SYN), let tcp_xmit_mp do it. 2065721fffe3SKacheong Poon */ 2066721fffe3SKacheong Poon return (tcp_xmit_mp(tcp, NULL, 0, NULL, NULL, seq_no, B_FALSE, 2067721fffe3SKacheong Poon NULL, B_FALSE)); 2068721fffe3SKacheong Poon } else { 2069721fffe3SKacheong Poon /* Generate a simple ACK */ 2070721fffe3SKacheong Poon int data_length; 2071721fffe3SKacheong Poon uchar_t *rptr; 2072721fffe3SKacheong Poon tcpha_t *tcpha; 2073721fffe3SKacheong Poon mblk_t *mp1; 2074721fffe3SKacheong Poon int32_t total_hdr_len; 2075721fffe3SKacheong Poon int32_t tcp_hdr_len; 2076721fffe3SKacheong Poon int32_t num_sack_blk = 0; 2077721fffe3SKacheong Poon int32_t sack_opt_len; 2078721fffe3SKacheong Poon ip_xmit_attr_t *ixa = connp->conn_ixa; 2079721fffe3SKacheong Poon 2080721fffe3SKacheong Poon /* 2081721fffe3SKacheong Poon * Allocate space for TCP + IP headers 2082721fffe3SKacheong Poon * and link-level header 2083721fffe3SKacheong Poon */ 2084721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok && tcp->tcp_num_sack_blk > 0) { 2085721fffe3SKacheong Poon num_sack_blk = MIN(tcp->tcp_max_sack_blk, 2086721fffe3SKacheong Poon tcp->tcp_num_sack_blk); 2087721fffe3SKacheong Poon sack_opt_len = num_sack_blk * sizeof (sack_blk_t) + 2088721fffe3SKacheong Poon TCPOPT_NOP_LEN * 2 + TCPOPT_HEADER_LEN; 2089721fffe3SKacheong Poon total_hdr_len = connp->conn_ht_iphc_len + sack_opt_len; 2090721fffe3SKacheong Poon tcp_hdr_len = connp->conn_ht_ulp_len + sack_opt_len; 2091721fffe3SKacheong Poon } else { 2092721fffe3SKacheong Poon total_hdr_len = connp->conn_ht_iphc_len; 2093721fffe3SKacheong Poon tcp_hdr_len = connp->conn_ht_ulp_len; 2094721fffe3SKacheong Poon } 2095721fffe3SKacheong Poon mp1 = allocb(total_hdr_len + tcps->tcps_wroff_xtra, BPRI_MED); 2096721fffe3SKacheong Poon if (!mp1) 2097721fffe3SKacheong Poon return (NULL); 2098721fffe3SKacheong Poon 2099721fffe3SKacheong Poon /* Update the latest receive window size in TCP header. */ 2100721fffe3SKacheong Poon tcp->tcp_tcpha->tha_win = 2101721fffe3SKacheong Poon htons(tcp->tcp_rwnd >> tcp->tcp_rcv_ws); 2102721fffe3SKacheong Poon /* copy in prototype TCP + IP header */ 2103721fffe3SKacheong Poon rptr = mp1->b_rptr + tcps->tcps_wroff_xtra; 2104721fffe3SKacheong Poon mp1->b_rptr = rptr; 2105721fffe3SKacheong Poon mp1->b_wptr = rptr + total_hdr_len; 2106721fffe3SKacheong Poon bcopy(connp->conn_ht_iphc, rptr, connp->conn_ht_iphc_len); 2107721fffe3SKacheong Poon 2108721fffe3SKacheong Poon tcpha = (tcpha_t *)&rptr[ixa->ixa_ip_hdr_length]; 2109721fffe3SKacheong Poon 2110721fffe3SKacheong Poon /* Set the TCP sequence number. */ 2111721fffe3SKacheong Poon tcpha->tha_seq = htonl(seq_no); 2112721fffe3SKacheong Poon 2113721fffe3SKacheong Poon /* Set up the TCP flag field. */ 2114721fffe3SKacheong Poon tcpha->tha_flags = (uchar_t)TH_ACK; 2115721fffe3SKacheong Poon if (tcp->tcp_ecn_echo_on) 2116721fffe3SKacheong Poon tcpha->tha_flags |= TH_ECE; 2117721fffe3SKacheong Poon 2118721fffe3SKacheong Poon tcp->tcp_rack = tcp->tcp_rnxt; 2119721fffe3SKacheong Poon tcp->tcp_rack_cnt = 0; 2120721fffe3SKacheong Poon 2121721fffe3SKacheong Poon /* fill in timestamp option if in use */ 2122721fffe3SKacheong Poon if (tcp->tcp_snd_ts_ok) { 2123721fffe3SKacheong Poon uint32_t llbolt = (uint32_t)LBOLT_FASTPATH; 2124721fffe3SKacheong Poon 2125721fffe3SKacheong Poon U32_TO_BE32(llbolt, 2126721fffe3SKacheong Poon (char *)tcpha + TCP_MIN_HEADER_LENGTH+4); 2127721fffe3SKacheong Poon U32_TO_BE32(tcp->tcp_ts_recent, 2128721fffe3SKacheong Poon (char *)tcpha + TCP_MIN_HEADER_LENGTH+8); 2129721fffe3SKacheong Poon } 2130721fffe3SKacheong Poon 2131721fffe3SKacheong Poon /* Fill in SACK options */ 2132721fffe3SKacheong Poon if (num_sack_blk > 0) { 2133721fffe3SKacheong Poon uchar_t *wptr = (uchar_t *)tcpha + 2134721fffe3SKacheong Poon connp->conn_ht_ulp_len; 2135721fffe3SKacheong Poon sack_blk_t *tmp; 2136721fffe3SKacheong Poon int32_t i; 2137721fffe3SKacheong Poon 2138721fffe3SKacheong Poon wptr[0] = TCPOPT_NOP; 2139721fffe3SKacheong Poon wptr[1] = TCPOPT_NOP; 2140721fffe3SKacheong Poon wptr[2] = TCPOPT_SACK; 2141721fffe3SKacheong Poon wptr[3] = TCPOPT_HEADER_LEN + num_sack_blk * 2142721fffe3SKacheong Poon sizeof (sack_blk_t); 2143721fffe3SKacheong Poon wptr += TCPOPT_REAL_SACK_LEN; 2144721fffe3SKacheong Poon 2145721fffe3SKacheong Poon tmp = tcp->tcp_sack_list; 2146721fffe3SKacheong Poon for (i = 0; i < num_sack_blk; i++) { 2147721fffe3SKacheong Poon U32_TO_BE32(tmp[i].begin, wptr); 2148721fffe3SKacheong Poon wptr += sizeof (tcp_seq); 2149721fffe3SKacheong Poon U32_TO_BE32(tmp[i].end, wptr); 2150721fffe3SKacheong Poon wptr += sizeof (tcp_seq); 2151721fffe3SKacheong Poon } 2152721fffe3SKacheong Poon tcpha->tha_offset_and_reserved += 2153721fffe3SKacheong Poon ((num_sack_blk * 2 + 1) << 4); 2154721fffe3SKacheong Poon } 2155721fffe3SKacheong Poon 2156721fffe3SKacheong Poon ixa->ixa_pktlen = total_hdr_len; 2157721fffe3SKacheong Poon 2158721fffe3SKacheong Poon if (ixa->ixa_flags & IXAF_IS_IPV4) { 2159721fffe3SKacheong Poon ((ipha_t *)rptr)->ipha_length = htons(total_hdr_len); 2160721fffe3SKacheong Poon } else { 2161721fffe3SKacheong Poon ip6_t *ip6 = (ip6_t *)rptr; 2162721fffe3SKacheong Poon 2163721fffe3SKacheong Poon ip6->ip6_plen = htons(total_hdr_len - IPV6_HDR_LEN); 2164721fffe3SKacheong Poon } 2165721fffe3SKacheong Poon 2166721fffe3SKacheong Poon /* 2167721fffe3SKacheong Poon * Prime pump for checksum calculation in IP. Include the 2168721fffe3SKacheong Poon * adjustment for a source route if any. 2169721fffe3SKacheong Poon */ 2170721fffe3SKacheong Poon data_length = tcp_hdr_len + connp->conn_sum; 2171721fffe3SKacheong Poon data_length = (data_length >> 16) + (data_length & 0xFFFF); 2172721fffe3SKacheong Poon tcpha->tha_sum = htons(data_length); 2173721fffe3SKacheong Poon 2174721fffe3SKacheong Poon if (tcp->tcp_ip_forward_progress) { 2175721fffe3SKacheong Poon tcp->tcp_ip_forward_progress = B_FALSE; 2176721fffe3SKacheong Poon connp->conn_ixa->ixa_flags |= IXAF_REACH_CONF; 2177721fffe3SKacheong Poon } else { 2178721fffe3SKacheong Poon connp->conn_ixa->ixa_flags &= ~IXAF_REACH_CONF; 2179721fffe3SKacheong Poon } 2180721fffe3SKacheong Poon return (mp1); 2181721fffe3SKacheong Poon } 2182721fffe3SKacheong Poon } 2183721fffe3SKacheong Poon 2184721fffe3SKacheong Poon /* 2185f2297e92SDan McDonald * Dummy socket upcalls for if/when the conn_t gets detached from a 2186f2297e92SDan McDonald * direct-callback sonode via a user-driven close(). Easy to catch with 2187f2297e92SDan McDonald * DTrace FBT, and should be mostly harmless. 2188f2297e92SDan McDonald */ 2189f2297e92SDan McDonald 2190f2297e92SDan McDonald /* ARGSUSED */ 2191f2297e92SDan McDonald static sock_upper_handle_t 2192f2297e92SDan McDonald tcp_dummy_newconn(sock_upper_handle_t x, sock_lower_handle_t y, 2193f2297e92SDan McDonald sock_downcalls_t *z, cred_t *cr, pid_t pid, sock_upcalls_t **ignored) 2194f2297e92SDan McDonald { 2195f2297e92SDan McDonald ASSERT(0); /* Panic in debug, otherwise ignore. */ 2196f2297e92SDan McDonald return (NULL); 2197f2297e92SDan McDonald } 2198f2297e92SDan McDonald 2199f2297e92SDan McDonald /* ARGSUSED */ 2200f2297e92SDan McDonald static void 2201f2297e92SDan McDonald tcp_dummy_connected(sock_upper_handle_t x, sock_connid_t y, cred_t *cr, 2202f2297e92SDan McDonald pid_t pid) 2203f2297e92SDan McDonald { 2204f2297e92SDan McDonald ASSERT(x == NULL); 2205f2297e92SDan McDonald /* Normally we'd crhold(cr) and attach it to socket state. */ 2206f2297e92SDan McDonald /* LINTED */ 2207f2297e92SDan McDonald } 2208f2297e92SDan McDonald 2209f2297e92SDan McDonald /* ARGSUSED */ 2210f2297e92SDan McDonald static int 2211f2297e92SDan McDonald tcp_dummy_disconnected(sock_upper_handle_t x, sock_connid_t y, int blah) 2212f2297e92SDan McDonald { 2213f2297e92SDan McDonald ASSERT(0); /* Panic in debug, otherwise ignore. */ 2214f2297e92SDan McDonald return (-1); 2215f2297e92SDan McDonald } 2216f2297e92SDan McDonald 2217f2297e92SDan McDonald /* ARGSUSED */ 2218f2297e92SDan McDonald static void 2219f2297e92SDan McDonald tcp_dummy_opctl(sock_upper_handle_t x, sock_opctl_action_t y, uintptr_t blah) 2220f2297e92SDan McDonald { 2221f2297e92SDan McDonald ASSERT(x == NULL); 2222f2297e92SDan McDonald /* We really want this one to be a harmless NOP for now. */ 2223f2297e92SDan McDonald /* LINTED */ 2224f2297e92SDan McDonald } 2225f2297e92SDan McDonald 2226f2297e92SDan McDonald /* ARGSUSED */ 2227f2297e92SDan McDonald static ssize_t 2228f2297e92SDan McDonald tcp_dummy_recv(sock_upper_handle_t x, mblk_t *mp, size_t len, int flags, 2229f2297e92SDan McDonald int *error, boolean_t *push) 2230f2297e92SDan McDonald { 2231f2297e92SDan McDonald ASSERT(x == NULL); 2232f2297e92SDan McDonald 2233f2297e92SDan McDonald /* 2234f2297e92SDan McDonald * Consume the message, set ESHUTDOWN, and return an error. 2235f2297e92SDan McDonald * Nobody's home! 2236f2297e92SDan McDonald */ 2237f2297e92SDan McDonald freemsg(mp); 2238f2297e92SDan McDonald *error = ESHUTDOWN; 2239f2297e92SDan McDonald return (-1); 2240f2297e92SDan McDonald } 2241f2297e92SDan McDonald 2242f2297e92SDan McDonald /* ARGSUSED */ 2243f2297e92SDan McDonald static void 2244f2297e92SDan McDonald tcp_dummy_set_proto_props(sock_upper_handle_t x, struct sock_proto_props *y) 2245f2297e92SDan McDonald { 2246f2297e92SDan McDonald ASSERT(0); /* Panic in debug, otherwise ignore. */ 2247f2297e92SDan McDonald } 2248f2297e92SDan McDonald 2249f2297e92SDan McDonald /* ARGSUSED */ 2250f2297e92SDan McDonald static void 2251f2297e92SDan McDonald tcp_dummy_txq_full(sock_upper_handle_t x, boolean_t y) 2252f2297e92SDan McDonald { 2253f2297e92SDan McDonald ASSERT(0); /* Panic in debug, otherwise ignore. */ 2254f2297e92SDan McDonald } 2255f2297e92SDan McDonald 2256f2297e92SDan McDonald /* ARGSUSED */ 2257f2297e92SDan McDonald static void 2258f2297e92SDan McDonald tcp_dummy_signal_oob(sock_upper_handle_t x, ssize_t len) 2259f2297e92SDan McDonald { 2260f2297e92SDan McDonald ASSERT(x == NULL); 2261f2297e92SDan McDonald /* Otherwise, this would signal socket state about OOB data. */ 2262f2297e92SDan McDonald } 2263f2297e92SDan McDonald 2264f2297e92SDan McDonald /* ARGSUSED */ 2265f2297e92SDan McDonald static void 2266f2297e92SDan McDonald tcp_dummy_set_error(sock_upper_handle_t x, int err) 2267f2297e92SDan McDonald { 2268f2297e92SDan McDonald ASSERT(0); /* Panic in debug, otherwise ignore. */ 2269f2297e92SDan McDonald } 2270f2297e92SDan McDonald 2271f2297e92SDan McDonald /* ARGSUSED */ 2272f2297e92SDan McDonald static void 2273f2297e92SDan McDonald tcp_dummy_onearg(sock_upper_handle_t x) 2274f2297e92SDan McDonald { 2275f2297e92SDan McDonald ASSERT(0); /* Panic in debug, otherwise ignore. */ 2276f2297e92SDan McDonald } 2277f2297e92SDan McDonald 2278f2297e92SDan McDonald static sock_upcalls_t tcp_dummy_upcalls = { 2279f2297e92SDan McDonald tcp_dummy_newconn, 2280f2297e92SDan McDonald tcp_dummy_connected, 2281f2297e92SDan McDonald tcp_dummy_disconnected, 2282f2297e92SDan McDonald tcp_dummy_opctl, 2283f2297e92SDan McDonald tcp_dummy_recv, 2284f2297e92SDan McDonald tcp_dummy_set_proto_props, 2285f2297e92SDan McDonald tcp_dummy_txq_full, 2286f2297e92SDan McDonald tcp_dummy_signal_oob, 2287f2297e92SDan McDonald tcp_dummy_onearg, 2288f2297e92SDan McDonald tcp_dummy_set_error, 2289f2297e92SDan McDonald tcp_dummy_onearg 2290f2297e92SDan McDonald }; 2291f2297e92SDan McDonald 2292f2297e92SDan McDonald /* 2293721fffe3SKacheong Poon * Handle M_DATA messages from IP. Its called directly from IP via 2294721fffe3SKacheong Poon * squeue for received IP packets. 2295721fffe3SKacheong Poon * 2296721fffe3SKacheong Poon * The first argument is always the connp/tcp to which the mp belongs. 2297721fffe3SKacheong Poon * There are no exceptions to this rule. The caller has already put 2298721fffe3SKacheong Poon * a reference on this connp/tcp and once tcp_input_data() returns, 2299721fffe3SKacheong Poon * the squeue will do the refrele. 2300721fffe3SKacheong Poon * 2301721fffe3SKacheong Poon * The TH_SYN for the listener directly go to tcp_input_listener via 2302721fffe3SKacheong Poon * squeue. ICMP errors go directly to tcp_icmp_input(). 2303721fffe3SKacheong Poon * 2304721fffe3SKacheong Poon * sqp: NULL = recursive, sqp != NULL means called from squeue 2305721fffe3SKacheong Poon */ 2306721fffe3SKacheong Poon void 2307721fffe3SKacheong Poon tcp_input_data(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *ira) 2308721fffe3SKacheong Poon { 2309721fffe3SKacheong Poon int32_t bytes_acked; 2310721fffe3SKacheong Poon int32_t gap; 2311721fffe3SKacheong Poon mblk_t *mp1; 2312721fffe3SKacheong Poon uint_t flags; 2313721fffe3SKacheong Poon uint32_t new_swnd = 0; 2314721fffe3SKacheong Poon uchar_t *iphdr; 2315721fffe3SKacheong Poon uchar_t *rptr; 2316721fffe3SKacheong Poon int32_t rgap; 2317721fffe3SKacheong Poon uint32_t seg_ack; 2318721fffe3SKacheong Poon int seg_len; 2319721fffe3SKacheong Poon uint_t ip_hdr_len; 2320721fffe3SKacheong Poon uint32_t seg_seq; 2321721fffe3SKacheong Poon tcpha_t *tcpha; 2322721fffe3SKacheong Poon int urp; 2323721fffe3SKacheong Poon tcp_opt_t tcpopt; 2324721fffe3SKacheong Poon ip_pkt_t ipp; 2325721fffe3SKacheong Poon boolean_t ofo_seg = B_FALSE; /* Out of order segment */ 2326721fffe3SKacheong Poon uint32_t cwnd; 2327721fffe3SKacheong Poon uint32_t add; 2328721fffe3SKacheong Poon int npkt; 2329721fffe3SKacheong Poon int mss; 2330721fffe3SKacheong Poon conn_t *connp = (conn_t *)arg; 2331721fffe3SKacheong Poon squeue_t *sqp = (squeue_t *)arg2; 2332721fffe3SKacheong Poon tcp_t *tcp = connp->conn_tcp; 2333721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps; 2334f2297e92SDan McDonald sock_upcalls_t *sockupcalls; 2335721fffe3SKacheong Poon 2336721fffe3SKacheong Poon /* 2337721fffe3SKacheong Poon * RST from fused tcp loopback peer should trigger an unfuse. 2338721fffe3SKacheong Poon */ 2339721fffe3SKacheong Poon if (tcp->tcp_fused) { 2340721fffe3SKacheong Poon TCP_STAT(tcps, tcp_fusion_aborted); 2341721fffe3SKacheong Poon tcp_unfuse(tcp); 2342721fffe3SKacheong Poon } 2343721fffe3SKacheong Poon 2344721fffe3SKacheong Poon iphdr = mp->b_rptr; 2345721fffe3SKacheong Poon rptr = mp->b_rptr; 2346721fffe3SKacheong Poon ASSERT(OK_32PTR(rptr)); 2347721fffe3SKacheong Poon 2348721fffe3SKacheong Poon ip_hdr_len = ira->ira_ip_hdr_length; 2349721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_all != 0) { 2350721fffe3SKacheong Poon /* 2351721fffe3SKacheong Poon * Record packet information in the ip_pkt_t 2352721fffe3SKacheong Poon */ 2353721fffe3SKacheong Poon ipp.ipp_fields = 0; 2354721fffe3SKacheong Poon if (ira->ira_flags & IRAF_IS_IPV4) { 2355721fffe3SKacheong Poon (void) ip_find_hdr_v4((ipha_t *)rptr, &ipp, 2356721fffe3SKacheong Poon B_FALSE); 2357721fffe3SKacheong Poon } else { 2358721fffe3SKacheong Poon uint8_t nexthdrp; 2359721fffe3SKacheong Poon 2360721fffe3SKacheong Poon /* 2361721fffe3SKacheong Poon * IPv6 packets can only be received by applications 2362721fffe3SKacheong Poon * that are prepared to receive IPv6 addresses. 2363721fffe3SKacheong Poon * The IP fanout must ensure this. 2364721fffe3SKacheong Poon */ 2365721fffe3SKacheong Poon ASSERT(connp->conn_family == AF_INET6); 2366721fffe3SKacheong Poon 2367721fffe3SKacheong Poon (void) ip_find_hdr_v6(mp, (ip6_t *)rptr, B_TRUE, &ipp, 2368721fffe3SKacheong Poon &nexthdrp); 2369721fffe3SKacheong Poon ASSERT(nexthdrp == IPPROTO_TCP); 2370721fffe3SKacheong Poon 2371721fffe3SKacheong Poon /* Could have caused a pullup? */ 2372721fffe3SKacheong Poon iphdr = mp->b_rptr; 2373721fffe3SKacheong Poon rptr = mp->b_rptr; 2374721fffe3SKacheong Poon } 2375721fffe3SKacheong Poon } 2376721fffe3SKacheong Poon ASSERT(DB_TYPE(mp) == M_DATA); 2377721fffe3SKacheong Poon ASSERT(mp->b_next == NULL); 2378721fffe3SKacheong Poon 2379721fffe3SKacheong Poon tcpha = (tcpha_t *)&rptr[ip_hdr_len]; 2380721fffe3SKacheong Poon seg_seq = ntohl(tcpha->tha_seq); 2381721fffe3SKacheong Poon seg_ack = ntohl(tcpha->tha_ack); 2382721fffe3SKacheong Poon ASSERT((uintptr_t)(mp->b_wptr - rptr) <= (uintptr_t)INT_MAX); 2383721fffe3SKacheong Poon seg_len = (int)(mp->b_wptr - rptr) - 2384721fffe3SKacheong Poon (ip_hdr_len + TCP_HDR_LENGTH(tcpha)); 2385721fffe3SKacheong Poon if ((mp1 = mp->b_cont) != NULL && mp1->b_datap->db_type == M_DATA) { 2386721fffe3SKacheong Poon do { 2387721fffe3SKacheong Poon ASSERT((uintptr_t)(mp1->b_wptr - mp1->b_rptr) <= 2388721fffe3SKacheong Poon (uintptr_t)INT_MAX); 2389721fffe3SKacheong Poon seg_len += (int)(mp1->b_wptr - mp1->b_rptr); 2390721fffe3SKacheong Poon } while ((mp1 = mp1->b_cont) != NULL && 2391721fffe3SKacheong Poon mp1->b_datap->db_type == M_DATA); 2392721fffe3SKacheong Poon } 2393721fffe3SKacheong Poon 23949cd928feSAlan Maguire DTRACE_TCP5(receive, mblk_t *, NULL, ip_xmit_attr_t *, connp->conn_ixa, 23959cd928feSAlan Maguire __dtrace_tcp_void_ip_t *, iphdr, tcp_t *, tcp, 23969cd928feSAlan Maguire __dtrace_tcp_tcph_t *, tcpha); 23979cd928feSAlan Maguire 2398721fffe3SKacheong Poon if (tcp->tcp_state == TCPS_TIME_WAIT) { 2399721fffe3SKacheong Poon tcp_time_wait_processing(tcp, mp, seg_seq, seg_ack, 2400721fffe3SKacheong Poon seg_len, tcpha, ira); 2401721fffe3SKacheong Poon return; 2402721fffe3SKacheong Poon } 2403721fffe3SKacheong Poon 2404721fffe3SKacheong Poon if (sqp != NULL) { 2405721fffe3SKacheong Poon /* 2406721fffe3SKacheong Poon * This is the correct place to update tcp_last_recv_time. Note 2407721fffe3SKacheong Poon * that it is also updated for tcp structure that belongs to 2408721fffe3SKacheong Poon * global and listener queues which do not really need updating. 2409721fffe3SKacheong Poon * But that should not cause any harm. And it is updated for 2410721fffe3SKacheong Poon * all kinds of incoming segments, not only for data segments. 2411721fffe3SKacheong Poon */ 2412721fffe3SKacheong Poon tcp->tcp_last_recv_time = LBOLT_FASTPATH; 2413721fffe3SKacheong Poon } 2414721fffe3SKacheong Poon 2415721fffe3SKacheong Poon flags = (unsigned int)tcpha->tha_flags & 0xFF; 2416721fffe3SKacheong Poon 2417721fffe3SKacheong Poon BUMP_LOCAL(tcp->tcp_ibsegs); 2418721fffe3SKacheong Poon DTRACE_PROBE2(tcp__trace__recv, mblk_t *, mp, tcp_t *, tcp); 2419721fffe3SKacheong Poon 2420721fffe3SKacheong Poon if ((flags & TH_URG) && sqp != NULL) { 2421721fffe3SKacheong Poon /* 2422721fffe3SKacheong Poon * TCP can't handle urgent pointers that arrive before 2423721fffe3SKacheong Poon * the connection has been accept()ed since it can't 2424721fffe3SKacheong Poon * buffer OOB data. Discard segment if this happens. 2425721fffe3SKacheong Poon * 2426721fffe3SKacheong Poon * We can't just rely on a non-null tcp_listener to indicate 2427721fffe3SKacheong Poon * that the accept() has completed since unlinking of the 2428721fffe3SKacheong Poon * eager and completion of the accept are not atomic. 2429721fffe3SKacheong Poon * tcp_detached, when it is not set (B_FALSE) indicates 2430721fffe3SKacheong Poon * that the accept() has completed. 2431721fffe3SKacheong Poon * 2432721fffe3SKacheong Poon * Nor can it reassemble urgent pointers, so discard 2433721fffe3SKacheong Poon * if it's not the next segment expected. 2434721fffe3SKacheong Poon * 2435721fffe3SKacheong Poon * Otherwise, collapse chain into one mblk (discard if 2436721fffe3SKacheong Poon * that fails). This makes sure the headers, retransmitted 2437721fffe3SKacheong Poon * data, and new data all are in the same mblk. 2438721fffe3SKacheong Poon */ 2439721fffe3SKacheong Poon ASSERT(mp != NULL); 2440721fffe3SKacheong Poon if (tcp->tcp_detached || !pullupmsg(mp, -1)) { 2441721fffe3SKacheong Poon freemsg(mp); 2442721fffe3SKacheong Poon return; 2443721fffe3SKacheong Poon } 2444721fffe3SKacheong Poon /* Update pointers into message */ 2445721fffe3SKacheong Poon iphdr = rptr = mp->b_rptr; 2446721fffe3SKacheong Poon tcpha = (tcpha_t *)&rptr[ip_hdr_len]; 2447721fffe3SKacheong Poon if (SEQ_GT(seg_seq, tcp->tcp_rnxt)) { 2448721fffe3SKacheong Poon /* 2449721fffe3SKacheong Poon * Since we can't handle any data with this urgent 2450721fffe3SKacheong Poon * pointer that is out of sequence, we expunge 2451721fffe3SKacheong Poon * the data. This allows us to still register 2452721fffe3SKacheong Poon * the urgent mark and generate the M_PCSIG, 2453721fffe3SKacheong Poon * which we can do. 2454721fffe3SKacheong Poon */ 2455721fffe3SKacheong Poon mp->b_wptr = (uchar_t *)tcpha + TCP_HDR_LENGTH(tcpha); 2456721fffe3SKacheong Poon seg_len = 0; 2457721fffe3SKacheong Poon } 2458721fffe3SKacheong Poon } 2459721fffe3SKacheong Poon 2460f2297e92SDan McDonald sockupcalls = connp->conn_upcalls; 2461f2297e92SDan McDonald /* A conn_t may have belonged to a now-closed socket. Be careful. */ 2462f2297e92SDan McDonald if (sockupcalls == NULL) 2463f2297e92SDan McDonald sockupcalls = &tcp_dummy_upcalls; 2464f2297e92SDan McDonald 2465721fffe3SKacheong Poon switch (tcp->tcp_state) { 2466721fffe3SKacheong Poon case TCPS_SYN_SENT: 2467721fffe3SKacheong Poon if (connp->conn_final_sqp == NULL && 2468721fffe3SKacheong Poon tcp_outbound_squeue_switch && sqp != NULL) { 2469721fffe3SKacheong Poon ASSERT(connp->conn_initial_sqp == connp->conn_sqp); 2470721fffe3SKacheong Poon connp->conn_final_sqp = sqp; 2471721fffe3SKacheong Poon if (connp->conn_final_sqp != connp->conn_sqp) { 2472721fffe3SKacheong Poon DTRACE_PROBE1(conn__final__sqp__switch, 2473721fffe3SKacheong Poon conn_t *, connp); 2474721fffe3SKacheong Poon CONN_INC_REF(connp); 2475721fffe3SKacheong Poon SQUEUE_SWITCH(connp, connp->conn_final_sqp); 2476721fffe3SKacheong Poon SQUEUE_ENTER_ONE(connp->conn_sqp, mp, 2477721fffe3SKacheong Poon tcp_input_data, connp, ira, ip_squeue_flag, 2478721fffe3SKacheong Poon SQTAG_CONNECT_FINISH); 2479721fffe3SKacheong Poon return; 2480721fffe3SKacheong Poon } 2481721fffe3SKacheong Poon DTRACE_PROBE1(conn__final__sqp__same, conn_t *, connp); 2482721fffe3SKacheong Poon } 2483721fffe3SKacheong Poon if (flags & TH_ACK) { 2484721fffe3SKacheong Poon /* 2485721fffe3SKacheong Poon * Note that our stack cannot send data before a 2486721fffe3SKacheong Poon * connection is established, therefore the 2487721fffe3SKacheong Poon * following check is valid. Otherwise, it has 2488721fffe3SKacheong Poon * to be changed. 2489721fffe3SKacheong Poon */ 2490721fffe3SKacheong Poon if (SEQ_LEQ(seg_ack, tcp->tcp_iss) || 2491721fffe3SKacheong Poon SEQ_GT(seg_ack, tcp->tcp_snxt)) { 2492721fffe3SKacheong Poon freemsg(mp); 2493721fffe3SKacheong Poon if (flags & TH_RST) 2494721fffe3SKacheong Poon return; 2495721fffe3SKacheong Poon tcp_xmit_ctl("TCPS_SYN_SENT-Bad_seq", 2496721fffe3SKacheong Poon tcp, seg_ack, 0, TH_RST); 2497721fffe3SKacheong Poon return; 2498721fffe3SKacheong Poon } 2499721fffe3SKacheong Poon ASSERT(tcp->tcp_suna + 1 == seg_ack); 2500721fffe3SKacheong Poon } 2501721fffe3SKacheong Poon if (flags & TH_RST) { 25029cd928feSAlan Maguire if (flags & TH_ACK) { 25039cd928feSAlan Maguire DTRACE_TCP5(connect__refused, mblk_t *, NULL, 25049cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa, 25059cd928feSAlan Maguire void_ip_t *, iphdr, tcp_t *, tcp, 25069cd928feSAlan Maguire tcph_t *, tcpha); 2507721fffe3SKacheong Poon (void) tcp_clean_death(tcp, ECONNREFUSED); 25089cd928feSAlan Maguire } 25099cd928feSAlan Maguire freemsg(mp); 2510721fffe3SKacheong Poon return; 2511721fffe3SKacheong Poon } 2512721fffe3SKacheong Poon if (!(flags & TH_SYN)) { 2513721fffe3SKacheong Poon freemsg(mp); 2514721fffe3SKacheong Poon return; 2515721fffe3SKacheong Poon } 2516721fffe3SKacheong Poon 2517721fffe3SKacheong Poon /* Process all TCP options. */ 2518721fffe3SKacheong Poon tcp_process_options(tcp, tcpha); 2519721fffe3SKacheong Poon /* 2520721fffe3SKacheong Poon * The following changes our rwnd to be a multiple of the 2521721fffe3SKacheong Poon * MIN(peer MSS, our MSS) for performance reason. 2522721fffe3SKacheong Poon */ 2523721fffe3SKacheong Poon (void) tcp_rwnd_set(tcp, MSS_ROUNDUP(connp->conn_rcvbuf, 2524721fffe3SKacheong Poon tcp->tcp_mss)); 2525721fffe3SKacheong Poon 2526721fffe3SKacheong Poon /* Is the other end ECN capable? */ 2527721fffe3SKacheong Poon if (tcp->tcp_ecn_ok) { 2528721fffe3SKacheong Poon if ((flags & (TH_ECE|TH_CWR)) != TH_ECE) { 2529721fffe3SKacheong Poon tcp->tcp_ecn_ok = B_FALSE; 2530721fffe3SKacheong Poon } 2531721fffe3SKacheong Poon } 2532721fffe3SKacheong Poon /* 2533721fffe3SKacheong Poon * Clear ECN flags because it may interfere with later 2534721fffe3SKacheong Poon * processing. 2535721fffe3SKacheong Poon */ 2536721fffe3SKacheong Poon flags &= ~(TH_ECE|TH_CWR); 2537721fffe3SKacheong Poon 2538721fffe3SKacheong Poon tcp->tcp_irs = seg_seq; 2539721fffe3SKacheong Poon tcp->tcp_rack = seg_seq; 2540721fffe3SKacheong Poon tcp->tcp_rnxt = seg_seq + 1; 2541721fffe3SKacheong Poon tcp->tcp_tcpha->tha_ack = htonl(tcp->tcp_rnxt); 2542721fffe3SKacheong Poon if (!TCP_IS_DETACHED(tcp)) { 2543721fffe3SKacheong Poon /* Allocate room for SACK options if needed. */ 2544721fffe3SKacheong Poon connp->conn_wroff = connp->conn_ht_iphc_len; 2545721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok) 2546721fffe3SKacheong Poon connp->conn_wroff += TCPOPT_MAX_SACK_LEN; 2547721fffe3SKacheong Poon if (!tcp->tcp_loopback) 2548721fffe3SKacheong Poon connp->conn_wroff += tcps->tcps_wroff_xtra; 2549721fffe3SKacheong Poon 2550721fffe3SKacheong Poon (void) proto_set_tx_wroff(connp->conn_rq, connp, 2551721fffe3SKacheong Poon connp->conn_wroff); 2552721fffe3SKacheong Poon } 2553721fffe3SKacheong Poon if (flags & TH_ACK) { 2554721fffe3SKacheong Poon /* 2555721fffe3SKacheong Poon * If we can't get the confirmation upstream, pretend 2556721fffe3SKacheong Poon * we didn't even see this one. 2557721fffe3SKacheong Poon * 2558721fffe3SKacheong Poon * XXX: how can we pretend we didn't see it if we 2559721fffe3SKacheong Poon * have updated rnxt et. al. 2560721fffe3SKacheong Poon * 2561721fffe3SKacheong Poon * For loopback we defer sending up the T_CONN_CON 2562721fffe3SKacheong Poon * until after some checks below. 2563721fffe3SKacheong Poon */ 2564721fffe3SKacheong Poon mp1 = NULL; 2565721fffe3SKacheong Poon /* 2566721fffe3SKacheong Poon * tcp_sendmsg() checks tcp_state without entering 2567721fffe3SKacheong Poon * the squeue so tcp_state should be updated before 25689cd928feSAlan Maguire * sending up connection confirmation. Probe the 25699cd928feSAlan Maguire * state change below when we are sure the connection 25709cd928feSAlan Maguire * confirmation has been sent. 2571721fffe3SKacheong Poon */ 2572721fffe3SKacheong Poon tcp->tcp_state = TCPS_ESTABLISHED; 2573721fffe3SKacheong Poon if (!tcp_conn_con(tcp, iphdr, mp, 2574721fffe3SKacheong Poon tcp->tcp_loopback ? &mp1 : NULL, ira)) { 2575721fffe3SKacheong Poon tcp->tcp_state = TCPS_SYN_SENT; 2576721fffe3SKacheong Poon freemsg(mp); 2577721fffe3SKacheong Poon return; 2578721fffe3SKacheong Poon } 2579721fffe3SKacheong Poon TCPS_CONN_INC(tcps); 2580721fffe3SKacheong Poon /* SYN was acked - making progress */ 2581721fffe3SKacheong Poon tcp->tcp_ip_forward_progress = B_TRUE; 2582721fffe3SKacheong Poon 2583721fffe3SKacheong Poon /* One for the SYN */ 2584721fffe3SKacheong Poon tcp->tcp_suna = tcp->tcp_iss + 1; 2585721fffe3SKacheong Poon tcp->tcp_valid_bits &= ~TCP_ISS_VALID; 2586721fffe3SKacheong Poon 2587721fffe3SKacheong Poon /* 2588721fffe3SKacheong Poon * If SYN was retransmitted, need to reset all 2589721fffe3SKacheong Poon * retransmission info. This is because this 2590721fffe3SKacheong Poon * segment will be treated as a dup ACK. 2591721fffe3SKacheong Poon */ 2592721fffe3SKacheong Poon if (tcp->tcp_rexmit) { 2593721fffe3SKacheong Poon tcp->tcp_rexmit = B_FALSE; 2594721fffe3SKacheong Poon tcp->tcp_rexmit_nxt = tcp->tcp_snxt; 2595721fffe3SKacheong Poon tcp->tcp_rexmit_max = tcp->tcp_snxt; 2596721fffe3SKacheong Poon tcp->tcp_ms_we_have_waited = 0; 2597721fffe3SKacheong Poon 2598721fffe3SKacheong Poon /* 2599721fffe3SKacheong Poon * Set tcp_cwnd back to 1 MSS, per 2600721fffe3SKacheong Poon * recommendation from 2601721fffe3SKacheong Poon * draft-floyd-incr-init-win-01.txt, 2602721fffe3SKacheong Poon * Increasing TCP's Initial Window. 2603721fffe3SKacheong Poon */ 2604721fffe3SKacheong Poon tcp->tcp_cwnd = tcp->tcp_mss; 2605721fffe3SKacheong Poon } 2606721fffe3SKacheong Poon 2607721fffe3SKacheong Poon tcp->tcp_swl1 = seg_seq; 2608721fffe3SKacheong Poon tcp->tcp_swl2 = seg_ack; 2609721fffe3SKacheong Poon 2610721fffe3SKacheong Poon new_swnd = ntohs(tcpha->tha_win); 2611721fffe3SKacheong Poon tcp->tcp_swnd = new_swnd; 2612721fffe3SKacheong Poon if (new_swnd > tcp->tcp_max_swnd) 2613721fffe3SKacheong Poon tcp->tcp_max_swnd = new_swnd; 2614721fffe3SKacheong Poon 2615721fffe3SKacheong Poon /* 2616721fffe3SKacheong Poon * Always send the three-way handshake ack immediately 2617721fffe3SKacheong Poon * in order to make the connection complete as soon as 2618721fffe3SKacheong Poon * possible on the accepting host. 2619721fffe3SKacheong Poon */ 2620721fffe3SKacheong Poon flags |= TH_ACK_NEEDED; 2621721fffe3SKacheong Poon 2622721fffe3SKacheong Poon /* 26239cd928feSAlan Maguire * Trace connect-established here. 26249cd928feSAlan Maguire */ 26259cd928feSAlan Maguire DTRACE_TCP5(connect__established, mblk_t *, NULL, 26269cd928feSAlan Maguire ip_xmit_attr_t *, tcp->tcp_connp->conn_ixa, 26279cd928feSAlan Maguire void_ip_t *, iphdr, tcp_t *, tcp, tcph_t *, tcpha); 26289cd928feSAlan Maguire 26299cd928feSAlan Maguire /* Trace change from SYN_SENT -> ESTABLISHED here */ 26309cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL, ip_xmit_attr_t *, 26319cd928feSAlan Maguire connp->conn_ixa, void, NULL, tcp_t *, tcp, 26329cd928feSAlan Maguire void, NULL, int32_t, TCPS_SYN_SENT); 26339cd928feSAlan Maguire 26349cd928feSAlan Maguire /* 2635721fffe3SKacheong Poon * Special case for loopback. At this point we have 2636721fffe3SKacheong Poon * received SYN-ACK from the remote endpoint. In 2637721fffe3SKacheong Poon * order to ensure that both endpoints reach the 2638721fffe3SKacheong Poon * fused state prior to any data exchange, the final 2639721fffe3SKacheong Poon * ACK needs to be sent before we indicate T_CONN_CON 2640721fffe3SKacheong Poon * to the module upstream. 2641721fffe3SKacheong Poon */ 2642721fffe3SKacheong Poon if (tcp->tcp_loopback) { 2643721fffe3SKacheong Poon mblk_t *ack_mp; 2644721fffe3SKacheong Poon 2645721fffe3SKacheong Poon ASSERT(!tcp->tcp_unfusable); 2646721fffe3SKacheong Poon ASSERT(mp1 != NULL); 2647721fffe3SKacheong Poon /* 2648721fffe3SKacheong Poon * For loopback, we always get a pure SYN-ACK 2649721fffe3SKacheong Poon * and only need to send back the final ACK 2650721fffe3SKacheong Poon * with no data (this is because the other 2651721fffe3SKacheong Poon * tcp is ours and we don't do T/TCP). This 2652721fffe3SKacheong Poon * final ACK triggers the passive side to 2653721fffe3SKacheong Poon * perform fusion in ESTABLISHED state. 2654721fffe3SKacheong Poon */ 2655721fffe3SKacheong Poon if ((ack_mp = tcp_ack_mp(tcp)) != NULL) { 2656721fffe3SKacheong Poon if (tcp->tcp_ack_tid != 0) { 2657721fffe3SKacheong Poon (void) TCP_TIMER_CANCEL(tcp, 2658721fffe3SKacheong Poon tcp->tcp_ack_tid); 2659721fffe3SKacheong Poon tcp->tcp_ack_tid = 0; 2660721fffe3SKacheong Poon } 2661721fffe3SKacheong Poon tcp_send_data(tcp, ack_mp); 2662721fffe3SKacheong Poon BUMP_LOCAL(tcp->tcp_obsegs); 2663721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpOutAck); 2664721fffe3SKacheong Poon 2665721fffe3SKacheong Poon if (!IPCL_IS_NONSTR(connp)) { 2666721fffe3SKacheong Poon /* Send up T_CONN_CON */ 2667721fffe3SKacheong Poon if (ira->ira_cred != NULL) { 2668721fffe3SKacheong Poon mblk_setcred(mp1, 2669721fffe3SKacheong Poon ira->ira_cred, 2670721fffe3SKacheong Poon ira->ira_cpid); 2671721fffe3SKacheong Poon } 2672721fffe3SKacheong Poon putnext(connp->conn_rq, mp1); 2673721fffe3SKacheong Poon } else { 2674f2297e92SDan McDonald (*sockupcalls->su_connected) 2675721fffe3SKacheong Poon (connp->conn_upper_handle, 2676721fffe3SKacheong Poon tcp->tcp_connid, 2677721fffe3SKacheong Poon ira->ira_cred, 2678721fffe3SKacheong Poon ira->ira_cpid); 2679721fffe3SKacheong Poon freemsg(mp1); 2680721fffe3SKacheong Poon } 2681721fffe3SKacheong Poon 2682721fffe3SKacheong Poon freemsg(mp); 2683721fffe3SKacheong Poon return; 2684721fffe3SKacheong Poon } 2685721fffe3SKacheong Poon /* 2686721fffe3SKacheong Poon * Forget fusion; we need to handle more 2687721fffe3SKacheong Poon * complex cases below. Send the deferred 2688721fffe3SKacheong Poon * T_CONN_CON message upstream and proceed 2689721fffe3SKacheong Poon * as usual. Mark this tcp as not capable 2690721fffe3SKacheong Poon * of fusion. 2691721fffe3SKacheong Poon */ 2692721fffe3SKacheong Poon TCP_STAT(tcps, tcp_fusion_unfusable); 2693721fffe3SKacheong Poon tcp->tcp_unfusable = B_TRUE; 2694721fffe3SKacheong Poon if (!IPCL_IS_NONSTR(connp)) { 2695721fffe3SKacheong Poon if (ira->ira_cred != NULL) { 2696721fffe3SKacheong Poon mblk_setcred(mp1, ira->ira_cred, 2697721fffe3SKacheong Poon ira->ira_cpid); 2698721fffe3SKacheong Poon } 2699721fffe3SKacheong Poon putnext(connp->conn_rq, mp1); 2700721fffe3SKacheong Poon } else { 2701f2297e92SDan McDonald (*sockupcalls->su_connected) 2702721fffe3SKacheong Poon (connp->conn_upper_handle, 2703721fffe3SKacheong Poon tcp->tcp_connid, ira->ira_cred, 2704721fffe3SKacheong Poon ira->ira_cpid); 2705721fffe3SKacheong Poon freemsg(mp1); 2706721fffe3SKacheong Poon } 2707721fffe3SKacheong Poon } 2708721fffe3SKacheong Poon 2709721fffe3SKacheong Poon /* 2710721fffe3SKacheong Poon * Check to see if there is data to be sent. If 2711721fffe3SKacheong Poon * yes, set the transmit flag. Then check to see 2712721fffe3SKacheong Poon * if received data processing needs to be done. 2713721fffe3SKacheong Poon * If not, go straight to xmit_check. This short 2714721fffe3SKacheong Poon * cut is OK as we don't support T/TCP. 2715721fffe3SKacheong Poon */ 2716721fffe3SKacheong Poon if (tcp->tcp_unsent) 2717721fffe3SKacheong Poon flags |= TH_XMIT_NEEDED; 2718721fffe3SKacheong Poon 2719721fffe3SKacheong Poon if (seg_len == 0 && !(flags & TH_URG)) { 2720721fffe3SKacheong Poon freemsg(mp); 2721721fffe3SKacheong Poon goto xmit_check; 2722721fffe3SKacheong Poon } 2723721fffe3SKacheong Poon 2724721fffe3SKacheong Poon flags &= ~TH_SYN; 2725721fffe3SKacheong Poon seg_seq++; 2726721fffe3SKacheong Poon break; 2727721fffe3SKacheong Poon } 2728721fffe3SKacheong Poon tcp->tcp_state = TCPS_SYN_RCVD; 27299cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL, ip_xmit_attr_t *, 27309cd928feSAlan Maguire connp->conn_ixa, void_ip_t *, NULL, tcp_t *, tcp, 27319cd928feSAlan Maguire tcph_t *, NULL, int32_t, TCPS_SYN_SENT); 2732721fffe3SKacheong Poon mp1 = tcp_xmit_mp(tcp, tcp->tcp_xmit_head, tcp->tcp_mss, 2733721fffe3SKacheong Poon NULL, NULL, tcp->tcp_iss, B_FALSE, NULL, B_FALSE); 2734721fffe3SKacheong Poon if (mp1 != NULL) { 2735721fffe3SKacheong Poon tcp_send_data(tcp, mp1); 2736721fffe3SKacheong Poon TCP_TIMER_RESTART(tcp, tcp->tcp_rto); 2737721fffe3SKacheong Poon } 2738721fffe3SKacheong Poon freemsg(mp); 2739721fffe3SKacheong Poon return; 2740721fffe3SKacheong Poon case TCPS_SYN_RCVD: 2741721fffe3SKacheong Poon if (flags & TH_ACK) { 274232c3e7eeSKacheong Poon uint32_t pinit_wnd; 274332c3e7eeSKacheong Poon 2744721fffe3SKacheong Poon /* 2745721fffe3SKacheong Poon * In this state, a SYN|ACK packet is either bogus 2746721fffe3SKacheong Poon * because the other side must be ACKing our SYN which 2747721fffe3SKacheong Poon * indicates it has seen the ACK for their SYN and 2748721fffe3SKacheong Poon * shouldn't retransmit it or we're crossing SYNs 2749721fffe3SKacheong Poon * on active open. 2750721fffe3SKacheong Poon */ 2751721fffe3SKacheong Poon if ((flags & TH_SYN) && !tcp->tcp_active_open) { 2752721fffe3SKacheong Poon freemsg(mp); 2753721fffe3SKacheong Poon tcp_xmit_ctl("TCPS_SYN_RCVD-bad_syn", 2754721fffe3SKacheong Poon tcp, seg_ack, 0, TH_RST); 2755721fffe3SKacheong Poon return; 2756721fffe3SKacheong Poon } 2757721fffe3SKacheong Poon /* 2758721fffe3SKacheong Poon * NOTE: RFC 793 pg. 72 says this should be 2759721fffe3SKacheong Poon * tcp->tcp_suna <= seg_ack <= tcp->tcp_snxt 2760721fffe3SKacheong Poon * but that would mean we have an ack that ignored 2761721fffe3SKacheong Poon * our SYN. 2762721fffe3SKacheong Poon */ 2763721fffe3SKacheong Poon if (SEQ_LEQ(seg_ack, tcp->tcp_suna) || 2764721fffe3SKacheong Poon SEQ_GT(seg_ack, tcp->tcp_snxt)) { 2765721fffe3SKacheong Poon freemsg(mp); 2766721fffe3SKacheong Poon tcp_xmit_ctl("TCPS_SYN_RCVD-bad_ack", 2767721fffe3SKacheong Poon tcp, seg_ack, 0, TH_RST); 2768721fffe3SKacheong Poon return; 2769721fffe3SKacheong Poon } 2770721fffe3SKacheong Poon /* 2771721fffe3SKacheong Poon * No sane TCP stack will send such a small window 2772721fffe3SKacheong Poon * without receiving any data. Just drop this invalid 2773721fffe3SKacheong Poon * ACK. We also shorten the abort timeout in case 2774721fffe3SKacheong Poon * this is an attack. 2775721fffe3SKacheong Poon */ 277632c3e7eeSKacheong Poon pinit_wnd = ntohs(tcpha->tha_win) << tcp->tcp_snd_ws; 277732c3e7eeSKacheong Poon if (pinit_wnd < tcp->tcp_mss && 277832c3e7eeSKacheong Poon pinit_wnd < tcp_init_wnd_chk) { 2779721fffe3SKacheong Poon freemsg(mp); 2780721fffe3SKacheong Poon TCP_STAT(tcps, tcp_zwin_ack_syn); 2781721fffe3SKacheong Poon tcp->tcp_second_ctimer_threshold = 2782721fffe3SKacheong Poon tcp_early_abort * SECONDS; 2783721fffe3SKacheong Poon return; 2784721fffe3SKacheong Poon } 2785721fffe3SKacheong Poon } 2786721fffe3SKacheong Poon break; 2787721fffe3SKacheong Poon case TCPS_LISTEN: 2788721fffe3SKacheong Poon /* 2789721fffe3SKacheong Poon * Only a TLI listener can come through this path when a 2790721fffe3SKacheong Poon * acceptor is going back to be a listener and a packet 2791721fffe3SKacheong Poon * for the acceptor hits the classifier. For a socket 2792721fffe3SKacheong Poon * listener, this can never happen because a listener 2793721fffe3SKacheong Poon * can never accept connection on itself and hence a 2794721fffe3SKacheong Poon * socket acceptor can not go back to being a listener. 2795721fffe3SKacheong Poon */ 2796721fffe3SKacheong Poon ASSERT(!TCP_IS_SOCKET(tcp)); 2797721fffe3SKacheong Poon /*FALLTHRU*/ 2798721fffe3SKacheong Poon case TCPS_CLOSED: 2799721fffe3SKacheong Poon case TCPS_BOUND: { 2800721fffe3SKacheong Poon conn_t *new_connp; 2801721fffe3SKacheong Poon ip_stack_t *ipst = tcps->tcps_netstack->netstack_ip; 2802721fffe3SKacheong Poon 2803721fffe3SKacheong Poon /* 2804721fffe3SKacheong Poon * Don't accept any input on a closed tcp as this TCP logically 2805721fffe3SKacheong Poon * does not exist on the system. Don't proceed further with 2806721fffe3SKacheong Poon * this TCP. For instance, this packet could trigger another 2807721fffe3SKacheong Poon * close of this tcp which would be disastrous for tcp_refcnt. 2808721fffe3SKacheong Poon * tcp_close_detached / tcp_clean_death / tcp_closei_local must 2809721fffe3SKacheong Poon * be called at most once on a TCP. In this case we need to 2810721fffe3SKacheong Poon * refeed the packet into the classifier and figure out where 2811721fffe3SKacheong Poon * the packet should go. 2812721fffe3SKacheong Poon */ 2813721fffe3SKacheong Poon new_connp = ipcl_classify(mp, ira, ipst); 2814721fffe3SKacheong Poon if (new_connp != NULL) { 2815721fffe3SKacheong Poon /* Drops ref on new_connp */ 2816721fffe3SKacheong Poon tcp_reinput(new_connp, mp, ira, ipst); 2817721fffe3SKacheong Poon return; 2818721fffe3SKacheong Poon } 2819721fffe3SKacheong Poon /* We failed to classify. For now just drop the packet */ 2820721fffe3SKacheong Poon freemsg(mp); 2821721fffe3SKacheong Poon return; 2822721fffe3SKacheong Poon } 2823721fffe3SKacheong Poon case TCPS_IDLE: 2824721fffe3SKacheong Poon /* 2825721fffe3SKacheong Poon * Handle the case where the tcp_clean_death() has happened 2826721fffe3SKacheong Poon * on a connection (application hasn't closed yet) but a packet 2827721fffe3SKacheong Poon * was already queued on squeue before tcp_clean_death() 2828721fffe3SKacheong Poon * was processed. Calling tcp_clean_death() twice on same 2829721fffe3SKacheong Poon * connection can result in weird behaviour. 2830721fffe3SKacheong Poon */ 2831721fffe3SKacheong Poon freemsg(mp); 2832721fffe3SKacheong Poon return; 2833721fffe3SKacheong Poon default: 2834721fffe3SKacheong Poon break; 2835721fffe3SKacheong Poon } 2836721fffe3SKacheong Poon 2837721fffe3SKacheong Poon /* 2838721fffe3SKacheong Poon * Already on the correct queue/perimeter. 2839721fffe3SKacheong Poon * If this is a detached connection and not an eager 2840721fffe3SKacheong Poon * connection hanging off a listener then new data 2841721fffe3SKacheong Poon * (past the FIN) will cause a reset. 2842721fffe3SKacheong Poon * We do a special check here where it 2843721fffe3SKacheong Poon * is out of the main line, rather than check 2844721fffe3SKacheong Poon * if we are detached every time we see new 2845721fffe3SKacheong Poon * data down below. 2846721fffe3SKacheong Poon */ 2847721fffe3SKacheong Poon if (TCP_IS_DETACHED_NONEAGER(tcp) && 2848721fffe3SKacheong Poon (seg_len > 0 && SEQ_GT(seg_seq + seg_len, tcp->tcp_rnxt))) { 2849721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInClosed); 2850721fffe3SKacheong Poon DTRACE_PROBE2(tcp__trace__recv, mblk_t *, mp, tcp_t *, tcp); 2851721fffe3SKacheong Poon freemsg(mp); 2852721fffe3SKacheong Poon tcp_xmit_ctl("new data when detached", tcp, 2853721fffe3SKacheong Poon tcp->tcp_snxt, 0, TH_RST); 2854721fffe3SKacheong Poon (void) tcp_clean_death(tcp, EPROTO); 2855721fffe3SKacheong Poon return; 2856721fffe3SKacheong Poon } 2857721fffe3SKacheong Poon 2858721fffe3SKacheong Poon mp->b_rptr = (uchar_t *)tcpha + TCP_HDR_LENGTH(tcpha); 2859721fffe3SKacheong Poon urp = ntohs(tcpha->tha_urp) - TCP_OLD_URP_INTERPRETATION; 2860721fffe3SKacheong Poon new_swnd = ntohs(tcpha->tha_win) << 2861721fffe3SKacheong Poon ((tcpha->tha_flags & TH_SYN) ? 0 : tcp->tcp_snd_ws); 2862721fffe3SKacheong Poon 2863*1f183ba0SLauri Tirkkonen /* 2864*1f183ba0SLauri Tirkkonen * We are interested in two TCP options: timestamps (if negotiated) and 2865*1f183ba0SLauri Tirkkonen * SACK (if negotiated). Skip option parsing if neither is negotiated. 2866*1f183ba0SLauri Tirkkonen */ 2867*1f183ba0SLauri Tirkkonen if (tcp->tcp_snd_ts_ok || tcp->tcp_snd_sack_ok) { 2868*1f183ba0SLauri Tirkkonen int options; 2869*1f183ba0SLauri Tirkkonen if (tcp->tcp_snd_sack_ok) 2870*1f183ba0SLauri Tirkkonen tcpopt.tcp = tcp; 2871*1f183ba0SLauri Tirkkonen else 2872*1f183ba0SLauri Tirkkonen tcpopt.tcp = NULL; 2873*1f183ba0SLauri Tirkkonen options = tcp_parse_options(tcpha, &tcpopt); 2874*1f183ba0SLauri Tirkkonen /* 2875*1f183ba0SLauri Tirkkonen * RST segments must not be subject to PAWS and are not 2876*1f183ba0SLauri Tirkkonen * required to have timestamps. 2877*1f183ba0SLauri Tirkkonen */ 2878*1f183ba0SLauri Tirkkonen if (tcp->tcp_snd_ts_ok && !(flags & TH_RST)) { 2879*1f183ba0SLauri Tirkkonen /* 2880*1f183ba0SLauri Tirkkonen * Per RFC 7323 section 3.2., silently drop non-RST 2881*1f183ba0SLauri Tirkkonen * segments without expected TSopt. This is a 'SHOULD' 2882*1f183ba0SLauri Tirkkonen * requirement. 2883*1f183ba0SLauri Tirkkonen */ 2884*1f183ba0SLauri Tirkkonen if (!(options & TCP_OPT_TSTAMP_PRESENT)) { 2885*1f183ba0SLauri Tirkkonen /* 2886*1f183ba0SLauri Tirkkonen * Leave a breadcrumb for people to detect this 2887*1f183ba0SLauri Tirkkonen * behavior. 2888*1f183ba0SLauri Tirkkonen */ 2889*1f183ba0SLauri Tirkkonen DTRACE_TCP1(droppedtimestamp, tcp_t *, tcp); 2890*1f183ba0SLauri Tirkkonen freemsg(mp); 2891*1f183ba0SLauri Tirkkonen return; 2892*1f183ba0SLauri Tirkkonen } 2893*1f183ba0SLauri Tirkkonen 2894*1f183ba0SLauri Tirkkonen if (!tcp_paws_check(tcp, &tcpopt)) { 2895721fffe3SKacheong Poon /* 2896721fffe3SKacheong Poon * This segment is not acceptable. 2897721fffe3SKacheong Poon * Drop it and send back an ACK. 2898721fffe3SKacheong Poon */ 2899721fffe3SKacheong Poon freemsg(mp); 2900721fffe3SKacheong Poon flags |= TH_ACK_NEEDED; 2901721fffe3SKacheong Poon goto ack_check; 2902721fffe3SKacheong Poon } 2903*1f183ba0SLauri Tirkkonen } 2904721fffe3SKacheong Poon } 2905721fffe3SKacheong Poon try_again:; 2906721fffe3SKacheong Poon mss = tcp->tcp_mss; 2907721fffe3SKacheong Poon gap = seg_seq - tcp->tcp_rnxt; 2908721fffe3SKacheong Poon rgap = tcp->tcp_rwnd - (gap + seg_len); 2909721fffe3SKacheong Poon /* 2910721fffe3SKacheong Poon * gap is the amount of sequence space between what we expect to see 2911721fffe3SKacheong Poon * and what we got for seg_seq. A positive value for gap means 2912721fffe3SKacheong Poon * something got lost. A negative value means we got some old stuff. 2913721fffe3SKacheong Poon */ 2914721fffe3SKacheong Poon if (gap < 0) { 2915721fffe3SKacheong Poon /* Old stuff present. Is the SYN in there? */ 2916721fffe3SKacheong Poon if (seg_seq == tcp->tcp_irs && (flags & TH_SYN) && 2917721fffe3SKacheong Poon (seg_len != 0)) { 2918721fffe3SKacheong Poon flags &= ~TH_SYN; 2919721fffe3SKacheong Poon seg_seq++; 2920721fffe3SKacheong Poon urp--; 2921721fffe3SKacheong Poon /* Recompute the gaps after noting the SYN. */ 2922721fffe3SKacheong Poon goto try_again; 2923721fffe3SKacheong Poon } 2924721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInDataDupSegs); 2925721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpInDataDupBytes, 2926721fffe3SKacheong Poon (seg_len > -gap ? -gap : seg_len)); 2927721fffe3SKacheong Poon /* Remove the old stuff from seg_len. */ 2928721fffe3SKacheong Poon seg_len += gap; 2929721fffe3SKacheong Poon /* 2930721fffe3SKacheong Poon * Anything left? 2931721fffe3SKacheong Poon * Make sure to check for unack'd FIN when rest of data 2932721fffe3SKacheong Poon * has been previously ack'd. 2933721fffe3SKacheong Poon */ 2934721fffe3SKacheong Poon if (seg_len < 0 || (seg_len == 0 && !(flags & TH_FIN))) { 2935721fffe3SKacheong Poon /* 2936721fffe3SKacheong Poon * Resets are only valid if they lie within our offered 2937721fffe3SKacheong Poon * window. If the RST bit is set, we just ignore this 2938721fffe3SKacheong Poon * segment. 2939721fffe3SKacheong Poon */ 2940721fffe3SKacheong Poon if (flags & TH_RST) { 2941721fffe3SKacheong Poon freemsg(mp); 2942721fffe3SKacheong Poon return; 2943721fffe3SKacheong Poon } 2944721fffe3SKacheong Poon 2945721fffe3SKacheong Poon /* 2946721fffe3SKacheong Poon * The arriving of dup data packets indicate that we 2947721fffe3SKacheong Poon * may have postponed an ack for too long, or the other 2948721fffe3SKacheong Poon * side's RTT estimate is out of shape. Start acking 2949721fffe3SKacheong Poon * more often. 2950721fffe3SKacheong Poon */ 2951721fffe3SKacheong Poon if (SEQ_GEQ(seg_seq + seg_len - gap, tcp->tcp_rack) && 2952721fffe3SKacheong Poon tcp->tcp_rack_cnt >= 1 && 2953721fffe3SKacheong Poon tcp->tcp_rack_abs_max > 2) { 2954721fffe3SKacheong Poon tcp->tcp_rack_abs_max--; 2955721fffe3SKacheong Poon } 2956721fffe3SKacheong Poon tcp->tcp_rack_cur_max = 1; 2957721fffe3SKacheong Poon 2958721fffe3SKacheong Poon /* 2959721fffe3SKacheong Poon * This segment is "unacceptable". None of its 2960721fffe3SKacheong Poon * sequence space lies within our advertized window. 2961721fffe3SKacheong Poon * 2962721fffe3SKacheong Poon * Adjust seg_len to the original value for tracing. 2963721fffe3SKacheong Poon */ 2964721fffe3SKacheong Poon seg_len -= gap; 2965721fffe3SKacheong Poon if (connp->conn_debug) { 2966721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE, 2967721fffe3SKacheong Poon "tcp_rput: unacceptable, gap %d, rgap %d, " 2968721fffe3SKacheong Poon "flags 0x%x, seg_seq %u, seg_ack %u, " 2969721fffe3SKacheong Poon "seg_len %d, rnxt %u, snxt %u, %s", 2970721fffe3SKacheong Poon gap, rgap, flags, seg_seq, seg_ack, 2971721fffe3SKacheong Poon seg_len, tcp->tcp_rnxt, tcp->tcp_snxt, 2972721fffe3SKacheong Poon tcp_display(tcp, NULL, 2973721fffe3SKacheong Poon DISP_ADDR_AND_PORT)); 2974721fffe3SKacheong Poon } 2975721fffe3SKacheong Poon 2976721fffe3SKacheong Poon /* 2977721fffe3SKacheong Poon * Arrange to send an ACK in response to the 2978721fffe3SKacheong Poon * unacceptable segment per RFC 793 page 69. There 2979721fffe3SKacheong Poon * is only one small difference between ours and the 2980721fffe3SKacheong Poon * acceptability test in the RFC - we accept ACK-only 2981721fffe3SKacheong Poon * packet with SEG.SEQ = RCV.NXT+RCV.WND and no ACK 2982721fffe3SKacheong Poon * will be generated. 2983721fffe3SKacheong Poon * 2984721fffe3SKacheong Poon * Note that we have to ACK an ACK-only packet at least 2985721fffe3SKacheong Poon * for stacks that send 0-length keep-alives with 2986721fffe3SKacheong Poon * SEG.SEQ = SND.NXT-1 as recommended by RFC1122, 2987721fffe3SKacheong Poon * section 4.2.3.6. As long as we don't ever generate 2988721fffe3SKacheong Poon * an unacceptable packet in response to an incoming 2989721fffe3SKacheong Poon * packet that is unacceptable, it should not cause 2990721fffe3SKacheong Poon * "ACK wars". 2991721fffe3SKacheong Poon */ 2992721fffe3SKacheong Poon flags |= TH_ACK_NEEDED; 2993721fffe3SKacheong Poon 2994721fffe3SKacheong Poon /* 2995721fffe3SKacheong Poon * Continue processing this segment in order to use the 2996721fffe3SKacheong Poon * ACK information it contains, but skip all other 2997721fffe3SKacheong Poon * sequence-number processing. Processing the ACK 2998721fffe3SKacheong Poon * information is necessary in order to 2999721fffe3SKacheong Poon * re-synchronize connections that may have lost 3000721fffe3SKacheong Poon * synchronization. 3001721fffe3SKacheong Poon * 3002721fffe3SKacheong Poon * We clear seg_len and flag fields related to 3003721fffe3SKacheong Poon * sequence number processing as they are not 3004721fffe3SKacheong Poon * to be trusted for an unacceptable segment. 3005721fffe3SKacheong Poon */ 3006721fffe3SKacheong Poon seg_len = 0; 3007721fffe3SKacheong Poon flags &= ~(TH_SYN | TH_FIN | TH_URG); 3008721fffe3SKacheong Poon goto process_ack; 3009721fffe3SKacheong Poon } 3010721fffe3SKacheong Poon 3011721fffe3SKacheong Poon /* Fix seg_seq, and chew the gap off the front. */ 3012721fffe3SKacheong Poon seg_seq = tcp->tcp_rnxt; 3013721fffe3SKacheong Poon urp += gap; 3014721fffe3SKacheong Poon do { 3015721fffe3SKacheong Poon mblk_t *mp2; 3016721fffe3SKacheong Poon ASSERT((uintptr_t)(mp->b_wptr - mp->b_rptr) <= 3017721fffe3SKacheong Poon (uintptr_t)UINT_MAX); 3018721fffe3SKacheong Poon gap += (uint_t)(mp->b_wptr - mp->b_rptr); 3019721fffe3SKacheong Poon if (gap > 0) { 3020721fffe3SKacheong Poon mp->b_rptr = mp->b_wptr - gap; 3021721fffe3SKacheong Poon break; 3022721fffe3SKacheong Poon } 3023721fffe3SKacheong Poon mp2 = mp; 3024721fffe3SKacheong Poon mp = mp->b_cont; 3025721fffe3SKacheong Poon freeb(mp2); 3026721fffe3SKacheong Poon } while (gap < 0); 3027721fffe3SKacheong Poon /* 3028721fffe3SKacheong Poon * If the urgent data has already been acknowledged, we 3029721fffe3SKacheong Poon * should ignore TH_URG below 3030721fffe3SKacheong Poon */ 3031721fffe3SKacheong Poon if (urp < 0) 3032721fffe3SKacheong Poon flags &= ~TH_URG; 3033721fffe3SKacheong Poon } 3034721fffe3SKacheong Poon /* 3035721fffe3SKacheong Poon * rgap is the amount of stuff received out of window. A negative 3036721fffe3SKacheong Poon * value is the amount out of window. 3037721fffe3SKacheong Poon */ 3038721fffe3SKacheong Poon if (rgap < 0) { 3039721fffe3SKacheong Poon mblk_t *mp2; 3040721fffe3SKacheong Poon 3041721fffe3SKacheong Poon if (tcp->tcp_rwnd == 0) { 3042721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInWinProbe); 3043721fffe3SKacheong Poon } else { 3044721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInDataPastWinSegs); 3045721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpInDataPastWinBytes, -rgap); 3046721fffe3SKacheong Poon } 3047721fffe3SKacheong Poon 3048721fffe3SKacheong Poon /* 3049721fffe3SKacheong Poon * seg_len does not include the FIN, so if more than 3050721fffe3SKacheong Poon * just the FIN is out of window, we act like we don't 3051721fffe3SKacheong Poon * see it. (If just the FIN is out of window, rgap 3052721fffe3SKacheong Poon * will be zero and we will go ahead and acknowledge 3053721fffe3SKacheong Poon * the FIN.) 3054721fffe3SKacheong Poon */ 3055721fffe3SKacheong Poon flags &= ~TH_FIN; 3056721fffe3SKacheong Poon 3057721fffe3SKacheong Poon /* Fix seg_len and make sure there is something left. */ 3058721fffe3SKacheong Poon seg_len += rgap; 3059721fffe3SKacheong Poon if (seg_len <= 0) { 3060721fffe3SKacheong Poon /* 3061721fffe3SKacheong Poon * Resets are only valid if they lie within our offered 3062721fffe3SKacheong Poon * window. If the RST bit is set, we just ignore this 3063721fffe3SKacheong Poon * segment. 3064721fffe3SKacheong Poon */ 3065721fffe3SKacheong Poon if (flags & TH_RST) { 3066721fffe3SKacheong Poon freemsg(mp); 3067721fffe3SKacheong Poon return; 3068721fffe3SKacheong Poon } 3069721fffe3SKacheong Poon 3070721fffe3SKacheong Poon /* Per RFC 793, we need to send back an ACK. */ 3071721fffe3SKacheong Poon flags |= TH_ACK_NEEDED; 3072721fffe3SKacheong Poon 3073721fffe3SKacheong Poon /* 3074721fffe3SKacheong Poon * Send SIGURG as soon as possible i.e. even 3075721fffe3SKacheong Poon * if the TH_URG was delivered in a window probe 3076721fffe3SKacheong Poon * packet (which will be unacceptable). 3077721fffe3SKacheong Poon * 3078721fffe3SKacheong Poon * We generate a signal if none has been generated 3079721fffe3SKacheong Poon * for this connection or if this is a new urgent 3080721fffe3SKacheong Poon * byte. Also send a zero-length "unmarked" message 3081721fffe3SKacheong Poon * to inform SIOCATMARK that this is not the mark. 3082721fffe3SKacheong Poon * 3083721fffe3SKacheong Poon * tcp_urp_last_valid is cleared when the T_exdata_ind 3084721fffe3SKacheong Poon * is sent up. This plus the check for old data 3085721fffe3SKacheong Poon * (gap >= 0) handles the wraparound of the sequence 3086721fffe3SKacheong Poon * number space without having to always track the 3087721fffe3SKacheong Poon * correct MAX(tcp_urp_last, tcp_rnxt). (BSD tracks 3088721fffe3SKacheong Poon * this max in its rcv_up variable). 3089721fffe3SKacheong Poon * 3090721fffe3SKacheong Poon * This prevents duplicate SIGURGS due to a "late" 3091721fffe3SKacheong Poon * zero-window probe when the T_EXDATA_IND has already 3092721fffe3SKacheong Poon * been sent up. 3093721fffe3SKacheong Poon */ 3094721fffe3SKacheong Poon if ((flags & TH_URG) && 3095721fffe3SKacheong Poon (!tcp->tcp_urp_last_valid || SEQ_GT(urp + seg_seq, 3096721fffe3SKacheong Poon tcp->tcp_urp_last))) { 3097721fffe3SKacheong Poon if (IPCL_IS_NONSTR(connp)) { 3098721fffe3SKacheong Poon if (!TCP_IS_DETACHED(tcp)) { 3099f2297e92SDan McDonald (*sockupcalls->su_signal_oob) 3100721fffe3SKacheong Poon (connp->conn_upper_handle, 3101721fffe3SKacheong Poon urp); 3102721fffe3SKacheong Poon } 3103721fffe3SKacheong Poon } else { 3104721fffe3SKacheong Poon mp1 = allocb(0, BPRI_MED); 3105721fffe3SKacheong Poon if (mp1 == NULL) { 3106721fffe3SKacheong Poon freemsg(mp); 3107721fffe3SKacheong Poon return; 3108721fffe3SKacheong Poon } 3109721fffe3SKacheong Poon if (!TCP_IS_DETACHED(tcp) && 3110721fffe3SKacheong Poon !putnextctl1(connp->conn_rq, 3111721fffe3SKacheong Poon M_PCSIG, SIGURG)) { 3112721fffe3SKacheong Poon /* Try again on the rexmit. */ 3113721fffe3SKacheong Poon freemsg(mp1); 3114721fffe3SKacheong Poon freemsg(mp); 3115721fffe3SKacheong Poon return; 3116721fffe3SKacheong Poon } 3117721fffe3SKacheong Poon /* 3118721fffe3SKacheong Poon * If the next byte would be the mark 3119721fffe3SKacheong Poon * then mark with MARKNEXT else mark 3120721fffe3SKacheong Poon * with NOTMARKNEXT. 3121721fffe3SKacheong Poon */ 3122721fffe3SKacheong Poon if (gap == 0 && urp == 0) 3123721fffe3SKacheong Poon mp1->b_flag |= MSGMARKNEXT; 3124721fffe3SKacheong Poon else 3125721fffe3SKacheong Poon mp1->b_flag |= MSGNOTMARKNEXT; 3126721fffe3SKacheong Poon freemsg(tcp->tcp_urp_mark_mp); 3127721fffe3SKacheong Poon tcp->tcp_urp_mark_mp = mp1; 3128721fffe3SKacheong Poon flags |= TH_SEND_URP_MARK; 3129721fffe3SKacheong Poon } 3130721fffe3SKacheong Poon tcp->tcp_urp_last_valid = B_TRUE; 3131721fffe3SKacheong Poon tcp->tcp_urp_last = urp + seg_seq; 3132721fffe3SKacheong Poon } 3133721fffe3SKacheong Poon /* 3134721fffe3SKacheong Poon * If this is a zero window probe, continue to 3135721fffe3SKacheong Poon * process the ACK part. But we need to set seg_len 3136721fffe3SKacheong Poon * to 0 to avoid data processing. Otherwise just 3137721fffe3SKacheong Poon * drop the segment and send back an ACK. 3138721fffe3SKacheong Poon */ 3139721fffe3SKacheong Poon if (tcp->tcp_rwnd == 0 && seg_seq == tcp->tcp_rnxt) { 3140721fffe3SKacheong Poon flags &= ~(TH_SYN | TH_URG); 3141721fffe3SKacheong Poon seg_len = 0; 3142721fffe3SKacheong Poon goto process_ack; 3143721fffe3SKacheong Poon } else { 3144721fffe3SKacheong Poon freemsg(mp); 3145721fffe3SKacheong Poon goto ack_check; 3146721fffe3SKacheong Poon } 3147721fffe3SKacheong Poon } 3148721fffe3SKacheong Poon /* Pitch out of window stuff off the end. */ 3149721fffe3SKacheong Poon rgap = seg_len; 3150721fffe3SKacheong Poon mp2 = mp; 3151721fffe3SKacheong Poon do { 3152721fffe3SKacheong Poon ASSERT((uintptr_t)(mp2->b_wptr - mp2->b_rptr) <= 3153721fffe3SKacheong Poon (uintptr_t)INT_MAX); 3154721fffe3SKacheong Poon rgap -= (int)(mp2->b_wptr - mp2->b_rptr); 3155721fffe3SKacheong Poon if (rgap < 0) { 3156721fffe3SKacheong Poon mp2->b_wptr += rgap; 3157721fffe3SKacheong Poon if ((mp1 = mp2->b_cont) != NULL) { 3158721fffe3SKacheong Poon mp2->b_cont = NULL; 3159721fffe3SKacheong Poon freemsg(mp1); 3160721fffe3SKacheong Poon } 3161721fffe3SKacheong Poon break; 3162721fffe3SKacheong Poon } 3163721fffe3SKacheong Poon } while ((mp2 = mp2->b_cont) != NULL); 3164721fffe3SKacheong Poon } 3165721fffe3SKacheong Poon ok:; 3166721fffe3SKacheong Poon /* 3167721fffe3SKacheong Poon * TCP should check ECN info for segments inside the window only. 3168721fffe3SKacheong Poon * Therefore the check should be done here. 3169721fffe3SKacheong Poon */ 3170721fffe3SKacheong Poon if (tcp->tcp_ecn_ok) { 3171721fffe3SKacheong Poon if (flags & TH_CWR) { 3172721fffe3SKacheong Poon tcp->tcp_ecn_echo_on = B_FALSE; 3173721fffe3SKacheong Poon } 3174721fffe3SKacheong Poon /* 3175721fffe3SKacheong Poon * Note that both ECN_CE and CWR can be set in the 3176721fffe3SKacheong Poon * same segment. In this case, we once again turn 3177721fffe3SKacheong Poon * on ECN_ECHO. 3178721fffe3SKacheong Poon */ 3179721fffe3SKacheong Poon if (connp->conn_ipversion == IPV4_VERSION) { 3180721fffe3SKacheong Poon uchar_t tos = ((ipha_t *)rptr)->ipha_type_of_service; 3181721fffe3SKacheong Poon 3182721fffe3SKacheong Poon if ((tos & IPH_ECN_CE) == IPH_ECN_CE) { 3183721fffe3SKacheong Poon tcp->tcp_ecn_echo_on = B_TRUE; 3184721fffe3SKacheong Poon } 3185721fffe3SKacheong Poon } else { 3186721fffe3SKacheong Poon uint32_t vcf = ((ip6_t *)rptr)->ip6_vcf; 3187721fffe3SKacheong Poon 3188721fffe3SKacheong Poon if ((vcf & htonl(IPH_ECN_CE << 20)) == 3189721fffe3SKacheong Poon htonl(IPH_ECN_CE << 20)) { 3190721fffe3SKacheong Poon tcp->tcp_ecn_echo_on = B_TRUE; 3191721fffe3SKacheong Poon } 3192721fffe3SKacheong Poon } 3193721fffe3SKacheong Poon } 3194721fffe3SKacheong Poon 3195721fffe3SKacheong Poon /* 3196*1f183ba0SLauri Tirkkonen * Check whether we can update tcp_ts_recent. This test is from RFC 3197*1f183ba0SLauri Tirkkonen * 7323, section 5.3. 3198721fffe3SKacheong Poon */ 3199*1f183ba0SLauri Tirkkonen if (tcp->tcp_snd_ts_ok && !(flags & TH_RST) && 3200721fffe3SKacheong Poon TSTMP_GEQ(tcpopt.tcp_opt_ts_val, tcp->tcp_ts_recent) && 3201721fffe3SKacheong Poon SEQ_LEQ(seg_seq, tcp->tcp_rack)) { 3202721fffe3SKacheong Poon tcp->tcp_ts_recent = tcpopt.tcp_opt_ts_val; 3203721fffe3SKacheong Poon tcp->tcp_last_rcv_lbolt = LBOLT_FASTPATH64; 3204721fffe3SKacheong Poon } 3205721fffe3SKacheong Poon 3206721fffe3SKacheong Poon if (seg_seq != tcp->tcp_rnxt || tcp->tcp_reass_head) { 3207721fffe3SKacheong Poon /* 3208721fffe3SKacheong Poon * FIN in an out of order segment. We record this in 3209721fffe3SKacheong Poon * tcp_valid_bits and the seq num of FIN in tcp_ofo_fin_seq. 3210721fffe3SKacheong Poon * Clear the FIN so that any check on FIN flag will fail. 3211721fffe3SKacheong Poon * Remember that FIN also counts in the sequence number 3212721fffe3SKacheong Poon * space. So we need to ack out of order FIN only segments. 3213721fffe3SKacheong Poon */ 3214721fffe3SKacheong Poon if (flags & TH_FIN) { 3215721fffe3SKacheong Poon tcp->tcp_valid_bits |= TCP_OFO_FIN_VALID; 3216721fffe3SKacheong Poon tcp->tcp_ofo_fin_seq = seg_seq + seg_len; 3217721fffe3SKacheong Poon flags &= ~TH_FIN; 3218721fffe3SKacheong Poon flags |= TH_ACK_NEEDED; 3219721fffe3SKacheong Poon } 3220721fffe3SKacheong Poon if (seg_len > 0) { 3221721fffe3SKacheong Poon /* Fill in the SACK blk list. */ 3222721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok) { 3223721fffe3SKacheong Poon tcp_sack_insert(tcp->tcp_sack_list, 3224721fffe3SKacheong Poon seg_seq, seg_seq + seg_len, 3225721fffe3SKacheong Poon &(tcp->tcp_num_sack_blk)); 3226721fffe3SKacheong Poon } 3227721fffe3SKacheong Poon 3228721fffe3SKacheong Poon /* 3229721fffe3SKacheong Poon * Attempt reassembly and see if we have something 3230721fffe3SKacheong Poon * ready to go. 3231721fffe3SKacheong Poon */ 3232721fffe3SKacheong Poon mp = tcp_reass(tcp, mp, seg_seq); 3233721fffe3SKacheong Poon /* Always ack out of order packets */ 3234721fffe3SKacheong Poon flags |= TH_ACK_NEEDED | TH_PUSH; 3235721fffe3SKacheong Poon if (mp) { 3236721fffe3SKacheong Poon ASSERT((uintptr_t)(mp->b_wptr - mp->b_rptr) <= 3237721fffe3SKacheong Poon (uintptr_t)INT_MAX); 3238721fffe3SKacheong Poon seg_len = mp->b_cont ? msgdsize(mp) : 3239721fffe3SKacheong Poon (int)(mp->b_wptr - mp->b_rptr); 3240721fffe3SKacheong Poon seg_seq = tcp->tcp_rnxt; 3241721fffe3SKacheong Poon /* 3242721fffe3SKacheong Poon * A gap is filled and the seq num and len 3243721fffe3SKacheong Poon * of the gap match that of a previously 3244721fffe3SKacheong Poon * received FIN, put the FIN flag back in. 3245721fffe3SKacheong Poon */ 3246721fffe3SKacheong Poon if ((tcp->tcp_valid_bits & TCP_OFO_FIN_VALID) && 3247721fffe3SKacheong Poon seg_seq + seg_len == tcp->tcp_ofo_fin_seq) { 3248721fffe3SKacheong Poon flags |= TH_FIN; 3249721fffe3SKacheong Poon tcp->tcp_valid_bits &= 3250721fffe3SKacheong Poon ~TCP_OFO_FIN_VALID; 3251721fffe3SKacheong Poon } 3252721fffe3SKacheong Poon if (tcp->tcp_reass_tid != 0) { 3253721fffe3SKacheong Poon (void) TCP_TIMER_CANCEL(tcp, 3254721fffe3SKacheong Poon tcp->tcp_reass_tid); 3255721fffe3SKacheong Poon /* 3256721fffe3SKacheong Poon * Restart the timer if there is still 3257721fffe3SKacheong Poon * data in the reassembly queue. 3258721fffe3SKacheong Poon */ 3259721fffe3SKacheong Poon if (tcp->tcp_reass_head != NULL) { 3260721fffe3SKacheong Poon tcp->tcp_reass_tid = TCP_TIMER( 3261721fffe3SKacheong Poon tcp, tcp_reass_timer, 326266cd0f60SKacheong Poon tcps->tcps_reass_timeout); 3263721fffe3SKacheong Poon } else { 3264721fffe3SKacheong Poon tcp->tcp_reass_tid = 0; 3265721fffe3SKacheong Poon } 3266721fffe3SKacheong Poon } 3267721fffe3SKacheong Poon } else { 3268721fffe3SKacheong Poon /* 3269721fffe3SKacheong Poon * Keep going even with NULL mp. 3270721fffe3SKacheong Poon * There may be a useful ACK or something else 3271721fffe3SKacheong Poon * we don't want to miss. 3272721fffe3SKacheong Poon * 3273721fffe3SKacheong Poon * But TCP should not perform fast retransmit 3274721fffe3SKacheong Poon * because of the ack number. TCP uses 3275721fffe3SKacheong Poon * seg_len == 0 to determine if it is a pure 3276721fffe3SKacheong Poon * ACK. And this is not a pure ACK. 3277721fffe3SKacheong Poon */ 3278721fffe3SKacheong Poon seg_len = 0; 3279721fffe3SKacheong Poon ofo_seg = B_TRUE; 3280721fffe3SKacheong Poon 3281721fffe3SKacheong Poon if (tcps->tcps_reass_timeout != 0 && 3282721fffe3SKacheong Poon tcp->tcp_reass_tid == 0) { 3283721fffe3SKacheong Poon tcp->tcp_reass_tid = TCP_TIMER(tcp, 328466cd0f60SKacheong Poon tcp_reass_timer, 328566cd0f60SKacheong Poon tcps->tcps_reass_timeout); 3286721fffe3SKacheong Poon } 3287721fffe3SKacheong Poon } 3288721fffe3SKacheong Poon } 3289721fffe3SKacheong Poon } else if (seg_len > 0) { 3290721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInDataInorderSegs); 3291721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpInDataInorderBytes, seg_len); 3292721fffe3SKacheong Poon /* 3293721fffe3SKacheong Poon * If an out of order FIN was received before, and the seq 3294721fffe3SKacheong Poon * num and len of the new segment match that of the FIN, 3295721fffe3SKacheong Poon * put the FIN flag back in. 3296721fffe3SKacheong Poon */ 3297721fffe3SKacheong Poon if ((tcp->tcp_valid_bits & TCP_OFO_FIN_VALID) && 3298721fffe3SKacheong Poon seg_seq + seg_len == tcp->tcp_ofo_fin_seq) { 3299721fffe3SKacheong Poon flags |= TH_FIN; 3300721fffe3SKacheong Poon tcp->tcp_valid_bits &= ~TCP_OFO_FIN_VALID; 3301721fffe3SKacheong Poon } 3302721fffe3SKacheong Poon } 3303721fffe3SKacheong Poon if ((flags & (TH_RST | TH_SYN | TH_URG | TH_ACK)) != TH_ACK) { 3304721fffe3SKacheong Poon if (flags & TH_RST) { 3305721fffe3SKacheong Poon freemsg(mp); 3306721fffe3SKacheong Poon switch (tcp->tcp_state) { 3307721fffe3SKacheong Poon case TCPS_SYN_RCVD: 3308721fffe3SKacheong Poon (void) tcp_clean_death(tcp, ECONNREFUSED); 3309721fffe3SKacheong Poon break; 3310721fffe3SKacheong Poon case TCPS_ESTABLISHED: 3311721fffe3SKacheong Poon case TCPS_FIN_WAIT_1: 3312721fffe3SKacheong Poon case TCPS_FIN_WAIT_2: 3313721fffe3SKacheong Poon case TCPS_CLOSE_WAIT: 3314721fffe3SKacheong Poon (void) tcp_clean_death(tcp, ECONNRESET); 3315721fffe3SKacheong Poon break; 3316721fffe3SKacheong Poon case TCPS_CLOSING: 3317721fffe3SKacheong Poon case TCPS_LAST_ACK: 3318721fffe3SKacheong Poon (void) tcp_clean_death(tcp, 0); 3319721fffe3SKacheong Poon break; 3320721fffe3SKacheong Poon default: 3321721fffe3SKacheong Poon ASSERT(tcp->tcp_state != TCPS_TIME_WAIT); 3322721fffe3SKacheong Poon (void) tcp_clean_death(tcp, ENXIO); 3323721fffe3SKacheong Poon break; 3324721fffe3SKacheong Poon } 3325721fffe3SKacheong Poon return; 3326721fffe3SKacheong Poon } 3327721fffe3SKacheong Poon if (flags & TH_SYN) { 3328721fffe3SKacheong Poon /* 3329721fffe3SKacheong Poon * See RFC 793, Page 71 3330721fffe3SKacheong Poon * 3331721fffe3SKacheong Poon * The seq number must be in the window as it should 3332721fffe3SKacheong Poon * be "fixed" above. If it is outside window, it should 3333721fffe3SKacheong Poon * be already rejected. Note that we allow seg_seq to be 3334721fffe3SKacheong Poon * rnxt + rwnd because we want to accept 0 window probe. 3335721fffe3SKacheong Poon */ 3336721fffe3SKacheong Poon ASSERT(SEQ_GEQ(seg_seq, tcp->tcp_rnxt) && 3337721fffe3SKacheong Poon SEQ_LEQ(seg_seq, tcp->tcp_rnxt + tcp->tcp_rwnd)); 3338721fffe3SKacheong Poon freemsg(mp); 3339721fffe3SKacheong Poon /* 3340721fffe3SKacheong Poon * If the ACK flag is not set, just use our snxt as the 3341721fffe3SKacheong Poon * seq number of the RST segment. 3342721fffe3SKacheong Poon */ 3343721fffe3SKacheong Poon if (!(flags & TH_ACK)) { 3344721fffe3SKacheong Poon seg_ack = tcp->tcp_snxt; 3345721fffe3SKacheong Poon } 3346721fffe3SKacheong Poon tcp_xmit_ctl("TH_SYN", tcp, seg_ack, seg_seq + 1, 3347721fffe3SKacheong Poon TH_RST|TH_ACK); 3348721fffe3SKacheong Poon ASSERT(tcp->tcp_state != TCPS_TIME_WAIT); 3349721fffe3SKacheong Poon (void) tcp_clean_death(tcp, ECONNRESET); 3350721fffe3SKacheong Poon return; 3351721fffe3SKacheong Poon } 3352721fffe3SKacheong Poon /* 3353721fffe3SKacheong Poon * urp could be -1 when the urp field in the packet is 0 3354721fffe3SKacheong Poon * and TCP_OLD_URP_INTERPRETATION is set. This implies that the urgent 3355721fffe3SKacheong Poon * byte was at seg_seq - 1, in which case we ignore the urgent flag. 3356721fffe3SKacheong Poon */ 3357721fffe3SKacheong Poon if (flags & TH_URG && urp >= 0) { 3358721fffe3SKacheong Poon if (!tcp->tcp_urp_last_valid || 3359721fffe3SKacheong Poon SEQ_GT(urp + seg_seq, tcp->tcp_urp_last)) { 3360721fffe3SKacheong Poon /* 3361721fffe3SKacheong Poon * Non-STREAMS sockets handle the urgent data a litte 3362721fffe3SKacheong Poon * differently from STREAMS based sockets. There is no 3363721fffe3SKacheong Poon * need to mark any mblks with the MSG{NOT,}MARKNEXT 3364721fffe3SKacheong Poon * flags to keep SIOCATMARK happy. Instead a 3365721fffe3SKacheong Poon * su_signal_oob upcall is made to update the mark. 3366721fffe3SKacheong Poon * Neither is a T_EXDATA_IND mblk needed to be 3367721fffe3SKacheong Poon * prepended to the urgent data. The urgent data is 3368721fffe3SKacheong Poon * delivered using the su_recv upcall, where we set 3369721fffe3SKacheong Poon * the MSG_OOB flag to indicate that it is urg data. 3370721fffe3SKacheong Poon * 3371721fffe3SKacheong Poon * Neither TH_SEND_URP_MARK nor TH_MARKNEXT_NEEDED 3372721fffe3SKacheong Poon * are used by non-STREAMS sockets. 3373721fffe3SKacheong Poon */ 3374721fffe3SKacheong Poon if (IPCL_IS_NONSTR(connp)) { 3375721fffe3SKacheong Poon if (!TCP_IS_DETACHED(tcp)) { 3376f2297e92SDan McDonald (*sockupcalls->su_signal_oob) 3377721fffe3SKacheong Poon (connp->conn_upper_handle, urp); 3378721fffe3SKacheong Poon } 3379721fffe3SKacheong Poon } else { 3380721fffe3SKacheong Poon /* 3381721fffe3SKacheong Poon * If we haven't generated the signal yet for 3382721fffe3SKacheong Poon * this urgent pointer value, do it now. Also, 3383721fffe3SKacheong Poon * send up a zero-length M_DATA indicating 3384721fffe3SKacheong Poon * whether or not this is the mark. The latter 3385721fffe3SKacheong Poon * is not needed when a T_EXDATA_IND is sent up. 3386721fffe3SKacheong Poon * However, if there are allocation failures 3387721fffe3SKacheong Poon * this code relies on the sender retransmitting 3388721fffe3SKacheong Poon * and the socket code for determining the mark 3389721fffe3SKacheong Poon * should not block waiting for the peer to 3390721fffe3SKacheong Poon * transmit. Thus, for simplicity we always 3391721fffe3SKacheong Poon * send up the mark indication. 3392721fffe3SKacheong Poon */ 3393721fffe3SKacheong Poon mp1 = allocb(0, BPRI_MED); 3394721fffe3SKacheong Poon if (mp1 == NULL) { 3395721fffe3SKacheong Poon freemsg(mp); 3396721fffe3SKacheong Poon return; 3397721fffe3SKacheong Poon } 3398721fffe3SKacheong Poon if (!TCP_IS_DETACHED(tcp) && 3399721fffe3SKacheong Poon !putnextctl1(connp->conn_rq, M_PCSIG, 3400721fffe3SKacheong Poon SIGURG)) { 3401721fffe3SKacheong Poon /* Try again on the rexmit. */ 3402721fffe3SKacheong Poon freemsg(mp1); 3403721fffe3SKacheong Poon freemsg(mp); 3404721fffe3SKacheong Poon return; 3405721fffe3SKacheong Poon } 3406721fffe3SKacheong Poon /* 3407721fffe3SKacheong Poon * Mark with NOTMARKNEXT for now. 3408721fffe3SKacheong Poon * The code below will change this to MARKNEXT 3409721fffe3SKacheong Poon * if we are at the mark. 3410721fffe3SKacheong Poon * 3411721fffe3SKacheong Poon * If there are allocation failures (e.g. in 3412721fffe3SKacheong Poon * dupmsg below) the next time tcp_input_data 3413721fffe3SKacheong Poon * sees the urgent segment it will send up the 3414721fffe3SKacheong Poon * MSGMARKNEXT message. 3415721fffe3SKacheong Poon */ 3416721fffe3SKacheong Poon mp1->b_flag |= MSGNOTMARKNEXT; 3417721fffe3SKacheong Poon freemsg(tcp->tcp_urp_mark_mp); 3418721fffe3SKacheong Poon tcp->tcp_urp_mark_mp = mp1; 3419721fffe3SKacheong Poon flags |= TH_SEND_URP_MARK; 3420721fffe3SKacheong Poon #ifdef DEBUG 3421721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE, 3422721fffe3SKacheong Poon "tcp_rput: sent M_PCSIG 2 seq %x urp %x " 3423721fffe3SKacheong Poon "last %x, %s", 3424721fffe3SKacheong Poon seg_seq, urp, tcp->tcp_urp_last, 3425721fffe3SKacheong Poon tcp_display(tcp, NULL, DISP_PORT_ONLY)); 3426721fffe3SKacheong Poon #endif /* DEBUG */ 3427721fffe3SKacheong Poon } 3428721fffe3SKacheong Poon tcp->tcp_urp_last_valid = B_TRUE; 3429721fffe3SKacheong Poon tcp->tcp_urp_last = urp + seg_seq; 3430721fffe3SKacheong Poon } else if (tcp->tcp_urp_mark_mp != NULL) { 3431721fffe3SKacheong Poon /* 3432721fffe3SKacheong Poon * An allocation failure prevented the previous 3433721fffe3SKacheong Poon * tcp_input_data from sending up the allocated 3434721fffe3SKacheong Poon * MSG*MARKNEXT message - send it up this time 3435721fffe3SKacheong Poon * around. 3436721fffe3SKacheong Poon */ 3437721fffe3SKacheong Poon flags |= TH_SEND_URP_MARK; 3438721fffe3SKacheong Poon } 3439721fffe3SKacheong Poon 3440721fffe3SKacheong Poon /* 3441721fffe3SKacheong Poon * If the urgent byte is in this segment, make sure that it is 3442721fffe3SKacheong Poon * all by itself. This makes it much easier to deal with the 3443721fffe3SKacheong Poon * possibility of an allocation failure on the T_exdata_ind. 3444721fffe3SKacheong Poon * Note that seg_len is the number of bytes in the segment, and 3445721fffe3SKacheong Poon * urp is the offset into the segment of the urgent byte. 3446721fffe3SKacheong Poon * urp < seg_len means that the urgent byte is in this segment. 3447721fffe3SKacheong Poon */ 3448721fffe3SKacheong Poon if (urp < seg_len) { 3449721fffe3SKacheong Poon if (seg_len != 1) { 3450721fffe3SKacheong Poon uint32_t tmp_rnxt; 3451721fffe3SKacheong Poon /* 3452721fffe3SKacheong Poon * Break it up and feed it back in. 3453721fffe3SKacheong Poon * Re-attach the IP header. 3454721fffe3SKacheong Poon */ 3455721fffe3SKacheong Poon mp->b_rptr = iphdr; 3456721fffe3SKacheong Poon if (urp > 0) { 3457721fffe3SKacheong Poon /* 3458721fffe3SKacheong Poon * There is stuff before the urgent 3459721fffe3SKacheong Poon * byte. 3460721fffe3SKacheong Poon */ 3461721fffe3SKacheong Poon mp1 = dupmsg(mp); 3462721fffe3SKacheong Poon if (!mp1) { 3463721fffe3SKacheong Poon /* 3464721fffe3SKacheong Poon * Trim from urgent byte on. 3465721fffe3SKacheong Poon * The rest will come back. 3466721fffe3SKacheong Poon */ 3467721fffe3SKacheong Poon (void) adjmsg(mp, 3468721fffe3SKacheong Poon urp - seg_len); 3469721fffe3SKacheong Poon tcp_input_data(connp, 3470721fffe3SKacheong Poon mp, NULL, ira); 3471721fffe3SKacheong Poon return; 3472721fffe3SKacheong Poon } 3473721fffe3SKacheong Poon (void) adjmsg(mp1, urp - seg_len); 3474721fffe3SKacheong Poon /* Feed this piece back in. */ 3475721fffe3SKacheong Poon tmp_rnxt = tcp->tcp_rnxt; 3476721fffe3SKacheong Poon tcp_input_data(connp, mp1, NULL, ira); 3477721fffe3SKacheong Poon /* 3478721fffe3SKacheong Poon * If the data passed back in was not 3479721fffe3SKacheong Poon * processed (ie: bad ACK) sending 3480721fffe3SKacheong Poon * the remainder back in will cause a 3481721fffe3SKacheong Poon * loop. In this case, drop the 3482721fffe3SKacheong Poon * packet and let the sender try 3483721fffe3SKacheong Poon * sending a good packet. 3484721fffe3SKacheong Poon */ 3485721fffe3SKacheong Poon if (tmp_rnxt == tcp->tcp_rnxt) { 3486721fffe3SKacheong Poon freemsg(mp); 3487721fffe3SKacheong Poon return; 3488721fffe3SKacheong Poon } 3489721fffe3SKacheong Poon } 3490721fffe3SKacheong Poon if (urp != seg_len - 1) { 3491721fffe3SKacheong Poon uint32_t tmp_rnxt; 3492721fffe3SKacheong Poon /* 3493721fffe3SKacheong Poon * There is stuff after the urgent 3494721fffe3SKacheong Poon * byte. 3495721fffe3SKacheong Poon */ 3496721fffe3SKacheong Poon mp1 = dupmsg(mp); 3497721fffe3SKacheong Poon if (!mp1) { 3498721fffe3SKacheong Poon /* 3499721fffe3SKacheong Poon * Trim everything beyond the 3500721fffe3SKacheong Poon * urgent byte. The rest will 3501721fffe3SKacheong Poon * come back. 3502721fffe3SKacheong Poon */ 3503721fffe3SKacheong Poon (void) adjmsg(mp, 3504721fffe3SKacheong Poon urp + 1 - seg_len); 3505721fffe3SKacheong Poon tcp_input_data(connp, 3506721fffe3SKacheong Poon mp, NULL, ira); 3507721fffe3SKacheong Poon return; 3508721fffe3SKacheong Poon } 3509721fffe3SKacheong Poon (void) adjmsg(mp1, urp + 1 - seg_len); 3510721fffe3SKacheong Poon tmp_rnxt = tcp->tcp_rnxt; 3511721fffe3SKacheong Poon tcp_input_data(connp, mp1, NULL, ira); 3512721fffe3SKacheong Poon /* 3513721fffe3SKacheong Poon * If the data passed back in was not 3514721fffe3SKacheong Poon * processed (ie: bad ACK) sending 3515721fffe3SKacheong Poon * the remainder back in will cause a 3516721fffe3SKacheong Poon * loop. In this case, drop the 3517721fffe3SKacheong Poon * packet and let the sender try 3518721fffe3SKacheong Poon * sending a good packet. 3519721fffe3SKacheong Poon */ 3520721fffe3SKacheong Poon if (tmp_rnxt == tcp->tcp_rnxt) { 3521721fffe3SKacheong Poon freemsg(mp); 3522721fffe3SKacheong Poon return; 3523721fffe3SKacheong Poon } 3524721fffe3SKacheong Poon } 3525721fffe3SKacheong Poon tcp_input_data(connp, mp, NULL, ira); 3526721fffe3SKacheong Poon return; 3527721fffe3SKacheong Poon } 3528721fffe3SKacheong Poon /* 3529721fffe3SKacheong Poon * This segment contains only the urgent byte. We 3530721fffe3SKacheong Poon * have to allocate the T_exdata_ind, if we can. 3531721fffe3SKacheong Poon */ 3532721fffe3SKacheong Poon if (IPCL_IS_NONSTR(connp)) { 3533721fffe3SKacheong Poon int error; 3534721fffe3SKacheong Poon 3535f2297e92SDan McDonald (*sockupcalls->su_recv) 3536721fffe3SKacheong Poon (connp->conn_upper_handle, mp, seg_len, 3537721fffe3SKacheong Poon MSG_OOB, &error, NULL); 3538721fffe3SKacheong Poon /* 3539721fffe3SKacheong Poon * We should never be in middle of a 3540721fffe3SKacheong Poon * fallback, the squeue guarantees that. 3541721fffe3SKacheong Poon */ 3542721fffe3SKacheong Poon ASSERT(error != EOPNOTSUPP); 3543721fffe3SKacheong Poon mp = NULL; 3544721fffe3SKacheong Poon goto update_ack; 3545721fffe3SKacheong Poon } else if (!tcp->tcp_urp_mp) { 3546721fffe3SKacheong Poon struct T_exdata_ind *tei; 3547721fffe3SKacheong Poon mp1 = allocb(sizeof (struct T_exdata_ind), 3548721fffe3SKacheong Poon BPRI_MED); 3549721fffe3SKacheong Poon if (!mp1) { 3550721fffe3SKacheong Poon /* 3551721fffe3SKacheong Poon * Sigh... It'll be back. 3552721fffe3SKacheong Poon * Generate any MSG*MARK message now. 3553721fffe3SKacheong Poon */ 3554721fffe3SKacheong Poon freemsg(mp); 3555721fffe3SKacheong Poon seg_len = 0; 3556721fffe3SKacheong Poon if (flags & TH_SEND_URP_MARK) { 3557721fffe3SKacheong Poon 3558721fffe3SKacheong Poon 3559721fffe3SKacheong Poon ASSERT(tcp->tcp_urp_mark_mp); 3560721fffe3SKacheong Poon tcp->tcp_urp_mark_mp->b_flag &= 3561721fffe3SKacheong Poon ~MSGNOTMARKNEXT; 3562721fffe3SKacheong Poon tcp->tcp_urp_mark_mp->b_flag |= 3563721fffe3SKacheong Poon MSGMARKNEXT; 3564721fffe3SKacheong Poon } 3565721fffe3SKacheong Poon goto ack_check; 3566721fffe3SKacheong Poon } 3567721fffe3SKacheong Poon mp1->b_datap->db_type = M_PROTO; 3568721fffe3SKacheong Poon tei = (struct T_exdata_ind *)mp1->b_rptr; 3569721fffe3SKacheong Poon tei->PRIM_type = T_EXDATA_IND; 3570721fffe3SKacheong Poon tei->MORE_flag = 0; 3571721fffe3SKacheong Poon mp1->b_wptr = (uchar_t *)&tei[1]; 3572721fffe3SKacheong Poon tcp->tcp_urp_mp = mp1; 3573721fffe3SKacheong Poon #ifdef DEBUG 3574721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE, 3575721fffe3SKacheong Poon "tcp_rput: allocated exdata_ind %s", 3576721fffe3SKacheong Poon tcp_display(tcp, NULL, 3577721fffe3SKacheong Poon DISP_PORT_ONLY)); 3578721fffe3SKacheong Poon #endif /* DEBUG */ 3579721fffe3SKacheong Poon /* 3580721fffe3SKacheong Poon * There is no need to send a separate MSG*MARK 3581721fffe3SKacheong Poon * message since the T_EXDATA_IND will be sent 3582721fffe3SKacheong Poon * now. 3583721fffe3SKacheong Poon */ 3584721fffe3SKacheong Poon flags &= ~TH_SEND_URP_MARK; 3585721fffe3SKacheong Poon freemsg(tcp->tcp_urp_mark_mp); 3586721fffe3SKacheong Poon tcp->tcp_urp_mark_mp = NULL; 3587721fffe3SKacheong Poon } 3588721fffe3SKacheong Poon /* 3589721fffe3SKacheong Poon * Now we are all set. On the next putnext upstream, 3590721fffe3SKacheong Poon * tcp_urp_mp will be non-NULL and will get prepended 3591721fffe3SKacheong Poon * to what has to be this piece containing the urgent 3592721fffe3SKacheong Poon * byte. If for any reason we abort this segment below, 3593721fffe3SKacheong Poon * if it comes back, we will have this ready, or it 3594721fffe3SKacheong Poon * will get blown off in close. 3595721fffe3SKacheong Poon */ 3596721fffe3SKacheong Poon } else if (urp == seg_len) { 3597721fffe3SKacheong Poon /* 3598721fffe3SKacheong Poon * The urgent byte is the next byte after this sequence 3599721fffe3SKacheong Poon * number. If this endpoint is non-STREAMS, then there 3600721fffe3SKacheong Poon * is nothing to do here since the socket has already 3601721fffe3SKacheong Poon * been notified about the urg pointer by the 3602721fffe3SKacheong Poon * su_signal_oob call above. 3603721fffe3SKacheong Poon * 3604721fffe3SKacheong Poon * In case of STREAMS, some more work might be needed. 3605721fffe3SKacheong Poon * If there is data it is marked with MSGMARKNEXT and 3606721fffe3SKacheong Poon * and any tcp_urp_mark_mp is discarded since it is not 3607721fffe3SKacheong Poon * needed. Otherwise, if the code above just allocated 3608721fffe3SKacheong Poon * a zero-length tcp_urp_mark_mp message, that message 3609721fffe3SKacheong Poon * is tagged with MSGMARKNEXT. Sending up these 3610721fffe3SKacheong Poon * MSGMARKNEXT messages makes SIOCATMARK work correctly 3611721fffe3SKacheong Poon * even though the T_EXDATA_IND will not be sent up 3612721fffe3SKacheong Poon * until the urgent byte arrives. 3613721fffe3SKacheong Poon */ 3614721fffe3SKacheong Poon if (!IPCL_IS_NONSTR(tcp->tcp_connp)) { 3615721fffe3SKacheong Poon if (seg_len != 0) { 3616721fffe3SKacheong Poon flags |= TH_MARKNEXT_NEEDED; 3617721fffe3SKacheong Poon freemsg(tcp->tcp_urp_mark_mp); 3618721fffe3SKacheong Poon tcp->tcp_urp_mark_mp = NULL; 3619721fffe3SKacheong Poon flags &= ~TH_SEND_URP_MARK; 3620721fffe3SKacheong Poon } else if (tcp->tcp_urp_mark_mp != NULL) { 3621721fffe3SKacheong Poon flags |= TH_SEND_URP_MARK; 3622721fffe3SKacheong Poon tcp->tcp_urp_mark_mp->b_flag &= 3623721fffe3SKacheong Poon ~MSGNOTMARKNEXT; 3624721fffe3SKacheong Poon tcp->tcp_urp_mark_mp->b_flag |= 3625721fffe3SKacheong Poon MSGMARKNEXT; 3626721fffe3SKacheong Poon } 3627721fffe3SKacheong Poon } 3628721fffe3SKacheong Poon #ifdef DEBUG 3629721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE, 3630721fffe3SKacheong Poon "tcp_rput: AT MARK, len %d, flags 0x%x, %s", 3631721fffe3SKacheong Poon seg_len, flags, 3632721fffe3SKacheong Poon tcp_display(tcp, NULL, DISP_PORT_ONLY)); 3633721fffe3SKacheong Poon #endif /* DEBUG */ 3634721fffe3SKacheong Poon } 3635721fffe3SKacheong Poon #ifdef DEBUG 3636721fffe3SKacheong Poon else { 3637721fffe3SKacheong Poon /* Data left until we hit mark */ 3638721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE, 3639721fffe3SKacheong Poon "tcp_rput: URP %d bytes left, %s", 3640721fffe3SKacheong Poon urp - seg_len, tcp_display(tcp, NULL, 3641721fffe3SKacheong Poon DISP_PORT_ONLY)); 3642721fffe3SKacheong Poon } 3643721fffe3SKacheong Poon #endif /* DEBUG */ 3644721fffe3SKacheong Poon } 3645721fffe3SKacheong Poon 3646721fffe3SKacheong Poon process_ack: 3647721fffe3SKacheong Poon if (!(flags & TH_ACK)) { 3648721fffe3SKacheong Poon freemsg(mp); 3649721fffe3SKacheong Poon goto xmit_check; 3650721fffe3SKacheong Poon } 3651721fffe3SKacheong Poon } 3652721fffe3SKacheong Poon bytes_acked = (int)(seg_ack - tcp->tcp_suna); 3653721fffe3SKacheong Poon 3654721fffe3SKacheong Poon if (bytes_acked > 0) 3655721fffe3SKacheong Poon tcp->tcp_ip_forward_progress = B_TRUE; 3656721fffe3SKacheong Poon if (tcp->tcp_state == TCPS_SYN_RCVD) { 36573e95bd4aSAnders Persson /* 36583e95bd4aSAnders Persson * tcp_sendmsg() checks tcp_state without entering 36593e95bd4aSAnders Persson * the squeue so tcp_state should be updated before 36603e95bd4aSAnders Persson * sending up a connection confirmation or a new 36613e95bd4aSAnders Persson * connection indication. 36623e95bd4aSAnders Persson */ 36633e95bd4aSAnders Persson tcp->tcp_state = TCPS_ESTABLISHED; 36643e95bd4aSAnders Persson 36653e95bd4aSAnders Persson /* 36663e95bd4aSAnders Persson * We are seeing the final ack in the three way 36673e95bd4aSAnders Persson * hand shake of a active open'ed connection 36683e95bd4aSAnders Persson * so we must send up a T_CONN_CON 36693e95bd4aSAnders Persson */ 36703e95bd4aSAnders Persson if (tcp->tcp_active_open) { 36713e95bd4aSAnders Persson if (!tcp_conn_con(tcp, iphdr, mp, NULL, ira)) { 36723e95bd4aSAnders Persson freemsg(mp); 36733e95bd4aSAnders Persson tcp->tcp_state = TCPS_SYN_RCVD; 36743e95bd4aSAnders Persson return; 36753e95bd4aSAnders Persson } 36763e95bd4aSAnders Persson /* 36773e95bd4aSAnders Persson * Don't fuse the loopback endpoints for 36783e95bd4aSAnders Persson * simultaneous active opens. 36793e95bd4aSAnders Persson */ 36803e95bd4aSAnders Persson if (tcp->tcp_loopback) { 36813e95bd4aSAnders Persson TCP_STAT(tcps, tcp_fusion_unfusable); 36823e95bd4aSAnders Persson tcp->tcp_unfusable = B_TRUE; 36833e95bd4aSAnders Persson } 36843e95bd4aSAnders Persson /* 36853e95bd4aSAnders Persson * For simultaneous active open, trace receipt of final 36863e95bd4aSAnders Persson * ACK as tcp:::connect-established. 36873e95bd4aSAnders Persson */ 36883e95bd4aSAnders Persson DTRACE_TCP5(connect__established, mblk_t *, NULL, 36893e95bd4aSAnders Persson ip_xmit_attr_t *, connp->conn_ixa, void_ip_t *, 36903e95bd4aSAnders Persson iphdr, tcp_t *, tcp, tcph_t *, tcpha); 36913e95bd4aSAnders Persson } else if (IPCL_IS_NONSTR(connp)) { 36923e95bd4aSAnders Persson /* 36933e95bd4aSAnders Persson * 3-way handshake has completed, so notify socket 36943e95bd4aSAnders Persson * of the new connection. 36953e95bd4aSAnders Persson * 36963e95bd4aSAnders Persson * We are here means eager is fine but it can 36973e95bd4aSAnders Persson * get a TH_RST at any point between now and till 36983e95bd4aSAnders Persson * accept completes and disappear. We need to 36993e95bd4aSAnders Persson * ensure that reference to eager is valid after 37003e95bd4aSAnders Persson * we get out of eager's perimeter. So we do 37013e95bd4aSAnders Persson * an extra refhold. 37023e95bd4aSAnders Persson */ 37033e95bd4aSAnders Persson CONN_INC_REF(connp); 37043e95bd4aSAnders Persson 37053e95bd4aSAnders Persson if (!tcp_newconn_notify(tcp, ira)) { 3706e82bc0baSAnders Persson /* 3707e82bc0baSAnders Persson * The state-change probe for SYN_RCVD -> 3708e82bc0baSAnders Persson * ESTABLISHED has not fired yet. We reset 3709e82bc0baSAnders Persson * the state to SYN_RCVD so that future 3710e82bc0baSAnders Persson * state-change probes report correct state 3711e82bc0baSAnders Persson * transistions. 3712e82bc0baSAnders Persson */ 3713e82bc0baSAnders Persson tcp->tcp_state = TCPS_SYN_RCVD; 37143e95bd4aSAnders Persson freemsg(mp); 37153e95bd4aSAnders Persson /* notification did not go up, so drop ref */ 37163e95bd4aSAnders Persson CONN_DEC_REF(connp); 3717e82bc0baSAnders Persson /* ... and close the eager */ 3718e82bc0baSAnders Persson ASSERT(TCP_IS_DETACHED(tcp)); 3719e82bc0baSAnders Persson (void) tcp_close_detached(tcp); 37203e95bd4aSAnders Persson return; 37213e95bd4aSAnders Persson } 37223e95bd4aSAnders Persson /* 3723a897f6d2SDan McDonald * tcp_newconn_notify() changes conn_upcalls and 3724a897f6d2SDan McDonald * connp->conn_upper_handle. Fix things now, in case 3725a897f6d2SDan McDonald * there's data attached to this ack. 3726a897f6d2SDan McDonald */ 3727a897f6d2SDan McDonald if (connp->conn_upcalls != NULL) 3728a897f6d2SDan McDonald sockupcalls = connp->conn_upcalls; 3729a897f6d2SDan McDonald /* 37303e95bd4aSAnders Persson * For passive open, trace receipt of final ACK as 37313e95bd4aSAnders Persson * tcp:::accept-established. 37323e95bd4aSAnders Persson */ 37333e95bd4aSAnders Persson DTRACE_TCP5(accept__established, mlbk_t *, NULL, 37343e95bd4aSAnders Persson ip_xmit_attr_t *, connp->conn_ixa, void_ip_t *, 37353e95bd4aSAnders Persson iphdr, tcp_t *, tcp, tcph_t *, tcpha); 3736dd49f125SAnders Persson } else { 37373e95bd4aSAnders Persson /* 37383e95bd4aSAnders Persson * 3-way handshake complete - this is a STREAMS based 37393e95bd4aSAnders Persson * socket, so pass up the T_CONN_IND. 37403e95bd4aSAnders Persson */ 3741721fffe3SKacheong Poon tcp_t *listener = tcp->tcp_listener; 3742721fffe3SKacheong Poon mblk_t *mp = tcp->tcp_conn.tcp_eager_conn_ind; 3743721fffe3SKacheong Poon 3744721fffe3SKacheong Poon tcp->tcp_tconnind_started = B_TRUE; 3745721fffe3SKacheong Poon tcp->tcp_conn.tcp_eager_conn_ind = NULL; 37463e95bd4aSAnders Persson ASSERT(mp != NULL); 3747721fffe3SKacheong Poon /* 3748721fffe3SKacheong Poon * We are here means eager is fine but it can 3749721fffe3SKacheong Poon * get a TH_RST at any point between now and till 3750721fffe3SKacheong Poon * accept completes and disappear. We need to 3751721fffe3SKacheong Poon * ensure that reference to eager is valid after 3752721fffe3SKacheong Poon * we get out of eager's perimeter. So we do 3753721fffe3SKacheong Poon * an extra refhold. 3754721fffe3SKacheong Poon */ 3755721fffe3SKacheong Poon CONN_INC_REF(connp); 3756721fffe3SKacheong Poon 3757721fffe3SKacheong Poon /* 3758721fffe3SKacheong Poon * The listener also exists because of the refhold 3759721fffe3SKacheong Poon * done in tcp_input_listener. Its possible that it 3760721fffe3SKacheong Poon * might have closed. We will check that once we 3761721fffe3SKacheong Poon * get inside listeners context. 3762721fffe3SKacheong Poon */ 3763721fffe3SKacheong Poon CONN_INC_REF(listener->tcp_connp); 3764721fffe3SKacheong Poon if (listener->tcp_connp->conn_sqp == 3765721fffe3SKacheong Poon connp->conn_sqp) { 3766721fffe3SKacheong Poon /* 3767721fffe3SKacheong Poon * We optimize by not calling an SQUEUE_ENTER 3768721fffe3SKacheong Poon * on the listener since we know that the 3769721fffe3SKacheong Poon * listener and eager squeues are the same. 3770721fffe3SKacheong Poon * We are able to make this check safely only 3771721fffe3SKacheong Poon * because neither the eager nor the listener 3772721fffe3SKacheong Poon * can change its squeue. Only an active connect 3773721fffe3SKacheong Poon * can change its squeue 3774721fffe3SKacheong Poon */ 3775721fffe3SKacheong Poon tcp_send_conn_ind(listener->tcp_connp, mp, 3776721fffe3SKacheong Poon listener->tcp_connp->conn_sqp); 3777721fffe3SKacheong Poon CONN_DEC_REF(listener->tcp_connp); 3778721fffe3SKacheong Poon } else if (!tcp->tcp_loopback) { 3779721fffe3SKacheong Poon SQUEUE_ENTER_ONE(listener->tcp_connp->conn_sqp, 3780721fffe3SKacheong Poon mp, tcp_send_conn_ind, 3781721fffe3SKacheong Poon listener->tcp_connp, NULL, SQ_FILL, 3782721fffe3SKacheong Poon SQTAG_TCP_CONN_IND); 3783721fffe3SKacheong Poon } else { 3784721fffe3SKacheong Poon SQUEUE_ENTER_ONE(listener->tcp_connp->conn_sqp, 3785721fffe3SKacheong Poon mp, tcp_send_conn_ind, 3786c7274c2eSGeorge Shepherd listener->tcp_connp, NULL, SQ_NODRAIN, 3787721fffe3SKacheong Poon SQTAG_TCP_CONN_IND); 3788721fffe3SKacheong Poon } 37899cd928feSAlan Maguire /* 37909cd928feSAlan Maguire * For passive open, trace receipt of final ACK as 37919cd928feSAlan Maguire * tcp:::accept-established. 37929cd928feSAlan Maguire */ 37939cd928feSAlan Maguire DTRACE_TCP5(accept__established, mlbk_t *, NULL, 37949cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa, void_ip_t *, 37959cd928feSAlan Maguire iphdr, tcp_t *, tcp, tcph_t *, tcpha); 3796721fffe3SKacheong Poon } 3797721fffe3SKacheong Poon TCPS_CONN_INC(tcps); 3798721fffe3SKacheong Poon 3799721fffe3SKacheong Poon tcp->tcp_suna = tcp->tcp_iss + 1; /* One for the SYN */ 3800721fffe3SKacheong Poon bytes_acked--; 3801721fffe3SKacheong Poon /* SYN was acked - making progress */ 3802721fffe3SKacheong Poon tcp->tcp_ip_forward_progress = B_TRUE; 3803721fffe3SKacheong Poon 3804721fffe3SKacheong Poon /* 3805721fffe3SKacheong Poon * If SYN was retransmitted, need to reset all 3806721fffe3SKacheong Poon * retransmission info as this segment will be 3807721fffe3SKacheong Poon * treated as a dup ACK. 3808721fffe3SKacheong Poon */ 3809721fffe3SKacheong Poon if (tcp->tcp_rexmit) { 3810721fffe3SKacheong Poon tcp->tcp_rexmit = B_FALSE; 3811721fffe3SKacheong Poon tcp->tcp_rexmit_nxt = tcp->tcp_snxt; 3812721fffe3SKacheong Poon tcp->tcp_rexmit_max = tcp->tcp_snxt; 3813721fffe3SKacheong Poon tcp->tcp_ms_we_have_waited = 0; 3814721fffe3SKacheong Poon tcp->tcp_cwnd = mss; 3815721fffe3SKacheong Poon } 3816721fffe3SKacheong Poon 3817721fffe3SKacheong Poon /* 3818721fffe3SKacheong Poon * We set the send window to zero here. 3819721fffe3SKacheong Poon * This is needed if there is data to be 3820721fffe3SKacheong Poon * processed already on the queue. 3821721fffe3SKacheong Poon * Later (at swnd_update label), the 3822721fffe3SKacheong Poon * "new_swnd > tcp_swnd" condition is satisfied 3823721fffe3SKacheong Poon * the XMIT_NEEDED flag is set in the current 3824721fffe3SKacheong Poon * (SYN_RCVD) state. This ensures tcp_wput_data() is 3825721fffe3SKacheong Poon * called if there is already data on queue in 3826721fffe3SKacheong Poon * this state. 3827721fffe3SKacheong Poon */ 3828721fffe3SKacheong Poon tcp->tcp_swnd = 0; 3829721fffe3SKacheong Poon 3830721fffe3SKacheong Poon if (new_swnd > tcp->tcp_max_swnd) 3831721fffe3SKacheong Poon tcp->tcp_max_swnd = new_swnd; 3832721fffe3SKacheong Poon tcp->tcp_swl1 = seg_seq; 3833721fffe3SKacheong Poon tcp->tcp_swl2 = seg_ack; 3834721fffe3SKacheong Poon tcp->tcp_valid_bits &= ~TCP_ISS_VALID; 3835721fffe3SKacheong Poon 38369cd928feSAlan Maguire /* Trace change from SYN_RCVD -> ESTABLISHED here */ 38379cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL, ip_xmit_attr_t *, 38389cd928feSAlan Maguire connp->conn_ixa, void, NULL, tcp_t *, tcp, void, NULL, 38399cd928feSAlan Maguire int32_t, TCPS_SYN_RCVD); 38409cd928feSAlan Maguire 3841721fffe3SKacheong Poon /* Fuse when both sides are in ESTABLISHED state */ 3842721fffe3SKacheong Poon if (tcp->tcp_loopback && do_tcp_fusion) 3843721fffe3SKacheong Poon tcp_fuse(tcp, iphdr, tcpha); 3844721fffe3SKacheong Poon 3845721fffe3SKacheong Poon } 3846721fffe3SKacheong Poon /* This code follows 4.4BSD-Lite2 mostly. */ 3847721fffe3SKacheong Poon if (bytes_acked < 0) 3848721fffe3SKacheong Poon goto est; 3849721fffe3SKacheong Poon 3850721fffe3SKacheong Poon /* 3851721fffe3SKacheong Poon * If TCP is ECN capable and the congestion experience bit is 3852721fffe3SKacheong Poon * set, reduce tcp_cwnd and tcp_ssthresh. But this should only be 3853721fffe3SKacheong Poon * done once per window (or more loosely, per RTT). 3854721fffe3SKacheong Poon */ 3855721fffe3SKacheong Poon if (tcp->tcp_cwr && SEQ_GT(seg_ack, tcp->tcp_cwr_snd_max)) 3856721fffe3SKacheong Poon tcp->tcp_cwr = B_FALSE; 3857721fffe3SKacheong Poon if (tcp->tcp_ecn_ok && (flags & TH_ECE)) { 3858721fffe3SKacheong Poon if (!tcp->tcp_cwr) { 3859721fffe3SKacheong Poon npkt = ((tcp->tcp_snxt - tcp->tcp_suna) >> 1) / mss; 3860721fffe3SKacheong Poon tcp->tcp_cwnd_ssthresh = MAX(npkt, 2) * mss; 3861721fffe3SKacheong Poon tcp->tcp_cwnd = npkt * mss; 3862721fffe3SKacheong Poon /* 3863721fffe3SKacheong Poon * If the cwnd is 0, use the timer to clock out 3864721fffe3SKacheong Poon * new segments. This is required by the ECN spec. 3865721fffe3SKacheong Poon */ 3866721fffe3SKacheong Poon if (npkt == 0) { 3867721fffe3SKacheong Poon TCP_TIMER_RESTART(tcp, tcp->tcp_rto); 3868721fffe3SKacheong Poon /* 3869721fffe3SKacheong Poon * This makes sure that when the ACK comes 3870721fffe3SKacheong Poon * back, we will increase tcp_cwnd by 1 MSS. 3871721fffe3SKacheong Poon */ 3872721fffe3SKacheong Poon tcp->tcp_cwnd_cnt = 0; 3873721fffe3SKacheong Poon } 3874721fffe3SKacheong Poon tcp->tcp_cwr = B_TRUE; 3875721fffe3SKacheong Poon /* 3876721fffe3SKacheong Poon * This marks the end of the current window of in 3877721fffe3SKacheong Poon * flight data. That is why we don't use 3878721fffe3SKacheong Poon * tcp_suna + tcp_swnd. Only data in flight can 3879721fffe3SKacheong Poon * provide ECN info. 3880721fffe3SKacheong Poon */ 3881721fffe3SKacheong Poon tcp->tcp_cwr_snd_max = tcp->tcp_snxt; 3882721fffe3SKacheong Poon tcp->tcp_ecn_cwr_sent = B_FALSE; 3883721fffe3SKacheong Poon } 3884721fffe3SKacheong Poon } 3885721fffe3SKacheong Poon 3886721fffe3SKacheong Poon mp1 = tcp->tcp_xmit_head; 3887721fffe3SKacheong Poon if (bytes_acked == 0) { 3888721fffe3SKacheong Poon if (!ofo_seg && seg_len == 0 && new_swnd == tcp->tcp_swnd) { 3889721fffe3SKacheong Poon int dupack_cnt; 3890721fffe3SKacheong Poon 3891721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInDupAck); 3892721fffe3SKacheong Poon /* 3893721fffe3SKacheong Poon * Fast retransmit. When we have seen exactly three 3894721fffe3SKacheong Poon * identical ACKs while we have unacked data 3895721fffe3SKacheong Poon * outstanding we take it as a hint that our peer 3896721fffe3SKacheong Poon * dropped something. 3897721fffe3SKacheong Poon * 3898721fffe3SKacheong Poon * If TCP is retransmitting, don't do fast retransmit. 3899721fffe3SKacheong Poon */ 3900721fffe3SKacheong Poon if (mp1 && tcp->tcp_suna != tcp->tcp_snxt && 3901721fffe3SKacheong Poon ! tcp->tcp_rexmit) { 3902721fffe3SKacheong Poon /* Do Limited Transmit */ 3903721fffe3SKacheong Poon if ((dupack_cnt = ++tcp->tcp_dupack_cnt) < 3904721fffe3SKacheong Poon tcps->tcps_dupack_fast_retransmit) { 3905721fffe3SKacheong Poon /* 3906721fffe3SKacheong Poon * RFC 3042 3907721fffe3SKacheong Poon * 3908721fffe3SKacheong Poon * What we need to do is temporarily 3909721fffe3SKacheong Poon * increase tcp_cwnd so that new 3910721fffe3SKacheong Poon * data can be sent if it is allowed 3911721fffe3SKacheong Poon * by the receive window (tcp_rwnd). 3912721fffe3SKacheong Poon * tcp_wput_data() will take care of 3913721fffe3SKacheong Poon * the rest. 3914721fffe3SKacheong Poon * 3915721fffe3SKacheong Poon * If the connection is SACK capable, 3916721fffe3SKacheong Poon * only do limited xmit when there 3917721fffe3SKacheong Poon * is SACK info. 3918721fffe3SKacheong Poon * 3919721fffe3SKacheong Poon * Note how tcp_cwnd is incremented. 3920721fffe3SKacheong Poon * The first dup ACK will increase 3921721fffe3SKacheong Poon * it by 1 MSS. The second dup ACK 3922721fffe3SKacheong Poon * will increase it by 2 MSS. This 3923721fffe3SKacheong Poon * means that only 1 new segment will 3924721fffe3SKacheong Poon * be sent for each dup ACK. 3925721fffe3SKacheong Poon */ 3926721fffe3SKacheong Poon if (tcp->tcp_unsent > 0 && 3927721fffe3SKacheong Poon (!tcp->tcp_snd_sack_ok || 3928721fffe3SKacheong Poon (tcp->tcp_snd_sack_ok && 3929721fffe3SKacheong Poon tcp->tcp_notsack_list != NULL))) { 3930721fffe3SKacheong Poon tcp->tcp_cwnd += mss << 3931721fffe3SKacheong Poon (tcp->tcp_dupack_cnt - 1); 3932721fffe3SKacheong Poon flags |= TH_LIMIT_XMIT; 3933721fffe3SKacheong Poon } 3934721fffe3SKacheong Poon } else if (dupack_cnt == 3935721fffe3SKacheong Poon tcps->tcps_dupack_fast_retransmit) { 3936721fffe3SKacheong Poon 3937721fffe3SKacheong Poon /* 3938721fffe3SKacheong Poon * If we have reduced tcp_ssthresh 3939721fffe3SKacheong Poon * because of ECN, do not reduce it again 3940721fffe3SKacheong Poon * unless it is already one window of data 3941721fffe3SKacheong Poon * away. After one window of data, tcp_cwr 3942721fffe3SKacheong Poon * should then be cleared. Note that 3943721fffe3SKacheong Poon * for non ECN capable connection, tcp_cwr 3944721fffe3SKacheong Poon * should always be false. 3945721fffe3SKacheong Poon * 3946721fffe3SKacheong Poon * Adjust cwnd since the duplicate 3947721fffe3SKacheong Poon * ack indicates that a packet was 3948721fffe3SKacheong Poon * dropped (due to congestion.) 3949721fffe3SKacheong Poon */ 3950721fffe3SKacheong Poon if (!tcp->tcp_cwr) { 3951721fffe3SKacheong Poon npkt = ((tcp->tcp_snxt - 3952721fffe3SKacheong Poon tcp->tcp_suna) >> 1) / mss; 3953721fffe3SKacheong Poon tcp->tcp_cwnd_ssthresh = MAX(npkt, 2) * 3954721fffe3SKacheong Poon mss; 3955721fffe3SKacheong Poon tcp->tcp_cwnd = (npkt + 3956721fffe3SKacheong Poon tcp->tcp_dupack_cnt) * mss; 3957721fffe3SKacheong Poon } 3958721fffe3SKacheong Poon if (tcp->tcp_ecn_ok) { 3959721fffe3SKacheong Poon tcp->tcp_cwr = B_TRUE; 3960721fffe3SKacheong Poon tcp->tcp_cwr_snd_max = tcp->tcp_snxt; 3961721fffe3SKacheong Poon tcp->tcp_ecn_cwr_sent = B_FALSE; 3962721fffe3SKacheong Poon } 3963721fffe3SKacheong Poon 3964721fffe3SKacheong Poon /* 3965721fffe3SKacheong Poon * We do Hoe's algorithm. Refer to her 3966721fffe3SKacheong Poon * paper "Improving the Start-up Behavior 3967721fffe3SKacheong Poon * of a Congestion Control Scheme for TCP," 3968721fffe3SKacheong Poon * appeared in SIGCOMM'96. 3969721fffe3SKacheong Poon * 3970721fffe3SKacheong Poon * Save highest seq no we have sent so far. 3971721fffe3SKacheong Poon * Be careful about the invisible FIN byte. 3972721fffe3SKacheong Poon */ 3973721fffe3SKacheong Poon if ((tcp->tcp_valid_bits & TCP_FSS_VALID) && 3974721fffe3SKacheong Poon (tcp->tcp_unsent == 0)) { 3975721fffe3SKacheong Poon tcp->tcp_rexmit_max = tcp->tcp_fss; 3976721fffe3SKacheong Poon } else { 3977721fffe3SKacheong Poon tcp->tcp_rexmit_max = tcp->tcp_snxt; 3978721fffe3SKacheong Poon } 3979721fffe3SKacheong Poon 3980721fffe3SKacheong Poon /* 3981721fffe3SKacheong Poon * For SACK: 3982721fffe3SKacheong Poon * Calculate tcp_pipe, which is the 3983721fffe3SKacheong Poon * estimated number of bytes in 3984721fffe3SKacheong Poon * network. 3985721fffe3SKacheong Poon * 3986721fffe3SKacheong Poon * tcp_fack is the highest sack'ed seq num 3987721fffe3SKacheong Poon * TCP has received. 3988721fffe3SKacheong Poon * 3989721fffe3SKacheong Poon * tcp_pipe is explained in the above quoted 3990721fffe3SKacheong Poon * Fall and Floyd's paper. tcp_fack is 3991721fffe3SKacheong Poon * explained in Mathis and Mahdavi's 3992721fffe3SKacheong Poon * "Forward Acknowledgment: Refining TCP 3993721fffe3SKacheong Poon * Congestion Control" in SIGCOMM '96. 3994721fffe3SKacheong Poon */ 3995721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok) { 3996721fffe3SKacheong Poon if (tcp->tcp_notsack_list != NULL) { 3997721fffe3SKacheong Poon tcp->tcp_pipe = tcp->tcp_snxt - 3998721fffe3SKacheong Poon tcp->tcp_fack; 3999721fffe3SKacheong Poon tcp->tcp_sack_snxt = seg_ack; 4000721fffe3SKacheong Poon flags |= TH_NEED_SACK_REXMIT; 4001721fffe3SKacheong Poon } else { 4002721fffe3SKacheong Poon /* 4003721fffe3SKacheong Poon * Always initialize tcp_pipe 4004721fffe3SKacheong Poon * even though we don't have 4005721fffe3SKacheong Poon * any SACK info. If later 4006721fffe3SKacheong Poon * we get SACK info and 4007721fffe3SKacheong Poon * tcp_pipe is not initialized, 4008721fffe3SKacheong Poon * funny things will happen. 4009721fffe3SKacheong Poon */ 4010721fffe3SKacheong Poon tcp->tcp_pipe = 4011721fffe3SKacheong Poon tcp->tcp_cwnd_ssthresh; 4012721fffe3SKacheong Poon } 4013721fffe3SKacheong Poon } else { 4014721fffe3SKacheong Poon flags |= TH_REXMIT_NEEDED; 4015721fffe3SKacheong Poon } /* tcp_snd_sack_ok */ 4016721fffe3SKacheong Poon 4017721fffe3SKacheong Poon } else { 4018721fffe3SKacheong Poon /* 4019721fffe3SKacheong Poon * Here we perform congestion 4020721fffe3SKacheong Poon * avoidance, but NOT slow start. 4021721fffe3SKacheong Poon * This is known as the Fast 4022721fffe3SKacheong Poon * Recovery Algorithm. 4023721fffe3SKacheong Poon */ 4024721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok && 4025721fffe3SKacheong Poon tcp->tcp_notsack_list != NULL) { 4026721fffe3SKacheong Poon flags |= TH_NEED_SACK_REXMIT; 4027721fffe3SKacheong Poon tcp->tcp_pipe -= mss; 4028721fffe3SKacheong Poon if (tcp->tcp_pipe < 0) 4029721fffe3SKacheong Poon tcp->tcp_pipe = 0; 4030721fffe3SKacheong Poon } else { 4031721fffe3SKacheong Poon /* 4032721fffe3SKacheong Poon * We know that one more packet has 4033721fffe3SKacheong Poon * left the pipe thus we can update 4034721fffe3SKacheong Poon * cwnd. 4035721fffe3SKacheong Poon */ 4036721fffe3SKacheong Poon cwnd = tcp->tcp_cwnd + mss; 4037721fffe3SKacheong Poon if (cwnd > tcp->tcp_cwnd_max) 4038721fffe3SKacheong Poon cwnd = tcp->tcp_cwnd_max; 4039721fffe3SKacheong Poon tcp->tcp_cwnd = cwnd; 4040721fffe3SKacheong Poon if (tcp->tcp_unsent > 0) 4041721fffe3SKacheong Poon flags |= TH_XMIT_NEEDED; 4042721fffe3SKacheong Poon } 4043721fffe3SKacheong Poon } 4044721fffe3SKacheong Poon } 4045721fffe3SKacheong Poon } else if (tcp->tcp_zero_win_probe) { 4046721fffe3SKacheong Poon /* 4047721fffe3SKacheong Poon * If the window has opened, need to arrange 4048721fffe3SKacheong Poon * to send additional data. 4049721fffe3SKacheong Poon */ 4050721fffe3SKacheong Poon if (new_swnd != 0) { 4051721fffe3SKacheong Poon /* tcp_suna != tcp_snxt */ 4052721fffe3SKacheong Poon /* Packet contains a window update */ 4053721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInWinUpdate); 4054721fffe3SKacheong Poon tcp->tcp_zero_win_probe = 0; 4055721fffe3SKacheong Poon tcp->tcp_timer_backoff = 0; 4056721fffe3SKacheong Poon tcp->tcp_ms_we_have_waited = 0; 4057721fffe3SKacheong Poon 4058721fffe3SKacheong Poon /* 4059721fffe3SKacheong Poon * Transmit starting with tcp_suna since 4060721fffe3SKacheong Poon * the one byte probe is not ack'ed. 4061721fffe3SKacheong Poon * If TCP has sent more than one identical 4062721fffe3SKacheong Poon * probe, tcp_rexmit will be set. That means 4063721fffe3SKacheong Poon * tcp_ss_rexmit() will send out the one 4064721fffe3SKacheong Poon * byte along with new data. Otherwise, 4065721fffe3SKacheong Poon * fake the retransmission. 4066721fffe3SKacheong Poon */ 4067721fffe3SKacheong Poon flags |= TH_XMIT_NEEDED; 4068721fffe3SKacheong Poon if (!tcp->tcp_rexmit) { 4069721fffe3SKacheong Poon tcp->tcp_rexmit = B_TRUE; 4070721fffe3SKacheong Poon tcp->tcp_dupack_cnt = 0; 4071721fffe3SKacheong Poon tcp->tcp_rexmit_nxt = tcp->tcp_suna; 4072721fffe3SKacheong Poon tcp->tcp_rexmit_max = tcp->tcp_suna + 1; 4073721fffe3SKacheong Poon } 4074721fffe3SKacheong Poon } 4075721fffe3SKacheong Poon } 4076721fffe3SKacheong Poon goto swnd_update; 4077721fffe3SKacheong Poon } 4078721fffe3SKacheong Poon 4079721fffe3SKacheong Poon /* 4080721fffe3SKacheong Poon * Check for "acceptability" of ACK value per RFC 793, pages 72 - 73. 4081721fffe3SKacheong Poon * If the ACK value acks something that we have not yet sent, it might 4082721fffe3SKacheong Poon * be an old duplicate segment. Send an ACK to re-synchronize the 4083721fffe3SKacheong Poon * other side. 4084721fffe3SKacheong Poon * Note: reset in response to unacceptable ACK in SYN_RECEIVE 4085721fffe3SKacheong Poon * state is handled above, so we can always just drop the segment and 4086721fffe3SKacheong Poon * send an ACK here. 4087721fffe3SKacheong Poon * 4088721fffe3SKacheong Poon * In the case where the peer shrinks the window, we see the new window 4089721fffe3SKacheong Poon * update, but all the data sent previously is queued up by the peer. 4090721fffe3SKacheong Poon * To account for this, in tcp_process_shrunk_swnd(), the sequence 4091721fffe3SKacheong Poon * number, which was already sent, and within window, is recorded. 4092721fffe3SKacheong Poon * tcp_snxt is then updated. 4093721fffe3SKacheong Poon * 4094721fffe3SKacheong Poon * If the window has previously shrunk, and an ACK for data not yet 4095721fffe3SKacheong Poon * sent, according to tcp_snxt is recieved, it may still be valid. If 4096721fffe3SKacheong Poon * the ACK is for data within the window at the time the window was 4097721fffe3SKacheong Poon * shrunk, then the ACK is acceptable. In this case tcp_snxt is set to 4098721fffe3SKacheong Poon * the sequence number ACK'ed. 4099721fffe3SKacheong Poon * 4100721fffe3SKacheong Poon * If the ACK covers all the data sent at the time the window was 4101721fffe3SKacheong Poon * shrunk, we can now set tcp_is_wnd_shrnk to B_FALSE. 4102721fffe3SKacheong Poon * 4103721fffe3SKacheong Poon * Should we send ACKs in response to ACK only segments? 4104721fffe3SKacheong Poon */ 4105721fffe3SKacheong Poon 4106721fffe3SKacheong Poon if (SEQ_GT(seg_ack, tcp->tcp_snxt)) { 4107721fffe3SKacheong Poon if ((tcp->tcp_is_wnd_shrnk) && 4108721fffe3SKacheong Poon (SEQ_LEQ(seg_ack, tcp->tcp_snxt_shrunk))) { 4109721fffe3SKacheong Poon uint32_t data_acked_ahead_snxt; 4110721fffe3SKacheong Poon 4111721fffe3SKacheong Poon data_acked_ahead_snxt = seg_ack - tcp->tcp_snxt; 4112721fffe3SKacheong Poon tcp_update_xmit_tail(tcp, seg_ack); 4113721fffe3SKacheong Poon tcp->tcp_unsent -= data_acked_ahead_snxt; 4114721fffe3SKacheong Poon } else { 4115721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInAckUnsent); 4116721fffe3SKacheong Poon /* drop the received segment */ 4117721fffe3SKacheong Poon freemsg(mp); 4118721fffe3SKacheong Poon 4119721fffe3SKacheong Poon /* 4120721fffe3SKacheong Poon * Send back an ACK. If tcp_drop_ack_unsent_cnt is 4121721fffe3SKacheong Poon * greater than 0, check if the number of such 4122721fffe3SKacheong Poon * bogus ACks is greater than that count. If yes, 4123721fffe3SKacheong Poon * don't send back any ACK. This prevents TCP from 4124721fffe3SKacheong Poon * getting into an ACK storm if somehow an attacker 4125721fffe3SKacheong Poon * successfully spoofs an acceptable segment to our 4126721fffe3SKacheong Poon * peer. If this continues (count > 2 X threshold), 4127721fffe3SKacheong Poon * we should abort this connection. 4128721fffe3SKacheong Poon */ 4129721fffe3SKacheong Poon if (tcp_drop_ack_unsent_cnt > 0 && 4130721fffe3SKacheong Poon ++tcp->tcp_in_ack_unsent > 4131721fffe3SKacheong Poon tcp_drop_ack_unsent_cnt) { 4132721fffe3SKacheong Poon TCP_STAT(tcps, tcp_in_ack_unsent_drop); 4133721fffe3SKacheong Poon if (tcp->tcp_in_ack_unsent > 2 * 4134721fffe3SKacheong Poon tcp_drop_ack_unsent_cnt) { 4135721fffe3SKacheong Poon (void) tcp_clean_death(tcp, EPROTO); 4136721fffe3SKacheong Poon } 4137721fffe3SKacheong Poon return; 4138721fffe3SKacheong Poon } 4139721fffe3SKacheong Poon mp = tcp_ack_mp(tcp); 4140721fffe3SKacheong Poon if (mp != NULL) { 4141721fffe3SKacheong Poon BUMP_LOCAL(tcp->tcp_obsegs); 4142721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpOutAck); 4143721fffe3SKacheong Poon tcp_send_data(tcp, mp); 4144721fffe3SKacheong Poon } 4145721fffe3SKacheong Poon return; 4146721fffe3SKacheong Poon } 4147721fffe3SKacheong Poon } else if (tcp->tcp_is_wnd_shrnk && SEQ_GEQ(seg_ack, 4148721fffe3SKacheong Poon tcp->tcp_snxt_shrunk)) { 4149721fffe3SKacheong Poon tcp->tcp_is_wnd_shrnk = B_FALSE; 4150721fffe3SKacheong Poon } 4151721fffe3SKacheong Poon 4152721fffe3SKacheong Poon /* 4153721fffe3SKacheong Poon * TCP gets a new ACK, update the notsack'ed list to delete those 4154721fffe3SKacheong Poon * blocks that are covered by this ACK. 4155721fffe3SKacheong Poon */ 4156721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok && tcp->tcp_notsack_list != NULL) { 4157721fffe3SKacheong Poon tcp_notsack_remove(&(tcp->tcp_notsack_list), seg_ack, 4158721fffe3SKacheong Poon &(tcp->tcp_num_notsack_blk), &(tcp->tcp_cnt_notsack_list)); 4159721fffe3SKacheong Poon } 4160721fffe3SKacheong Poon 4161721fffe3SKacheong Poon /* 4162721fffe3SKacheong Poon * If we got an ACK after fast retransmit, check to see 4163721fffe3SKacheong Poon * if it is a partial ACK. If it is not and the congestion 4164721fffe3SKacheong Poon * window was inflated to account for the other side's 4165721fffe3SKacheong Poon * cached packets, retract it. If it is, do Hoe's algorithm. 4166721fffe3SKacheong Poon */ 4167721fffe3SKacheong Poon if (tcp->tcp_dupack_cnt >= tcps->tcps_dupack_fast_retransmit) { 4168721fffe3SKacheong Poon ASSERT(tcp->tcp_rexmit == B_FALSE); 4169721fffe3SKacheong Poon if (SEQ_GEQ(seg_ack, tcp->tcp_rexmit_max)) { 4170721fffe3SKacheong Poon tcp->tcp_dupack_cnt = 0; 4171721fffe3SKacheong Poon /* 4172721fffe3SKacheong Poon * Restore the orig tcp_cwnd_ssthresh after 4173721fffe3SKacheong Poon * fast retransmit phase. 4174721fffe3SKacheong Poon */ 4175721fffe3SKacheong Poon if (tcp->tcp_cwnd > tcp->tcp_cwnd_ssthresh) { 4176721fffe3SKacheong Poon tcp->tcp_cwnd = tcp->tcp_cwnd_ssthresh; 4177721fffe3SKacheong Poon } 4178721fffe3SKacheong Poon tcp->tcp_rexmit_max = seg_ack; 4179721fffe3SKacheong Poon tcp->tcp_cwnd_cnt = 0; 4180721fffe3SKacheong Poon 4181721fffe3SKacheong Poon /* 4182721fffe3SKacheong Poon * Remove all notsack info to avoid confusion with 4183721fffe3SKacheong Poon * the next fast retrasnmit/recovery phase. 4184721fffe3SKacheong Poon */ 418566cd0f60SKacheong Poon if (tcp->tcp_snd_sack_ok) { 4186721fffe3SKacheong Poon TCP_NOTSACK_REMOVE_ALL(tcp->tcp_notsack_list, 4187721fffe3SKacheong Poon tcp); 4188721fffe3SKacheong Poon } 4189721fffe3SKacheong Poon } else { 4190721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok && 4191721fffe3SKacheong Poon tcp->tcp_notsack_list != NULL) { 4192721fffe3SKacheong Poon flags |= TH_NEED_SACK_REXMIT; 4193721fffe3SKacheong Poon tcp->tcp_pipe -= mss; 4194721fffe3SKacheong Poon if (tcp->tcp_pipe < 0) 4195721fffe3SKacheong Poon tcp->tcp_pipe = 0; 4196721fffe3SKacheong Poon } else { 4197721fffe3SKacheong Poon /* 4198721fffe3SKacheong Poon * Hoe's algorithm: 4199721fffe3SKacheong Poon * 4200721fffe3SKacheong Poon * Retransmit the unack'ed segment and 4201721fffe3SKacheong Poon * restart fast recovery. Note that we 4202721fffe3SKacheong Poon * need to scale back tcp_cwnd to the 4203721fffe3SKacheong Poon * original value when we started fast 4204721fffe3SKacheong Poon * recovery. This is to prevent overly 4205721fffe3SKacheong Poon * aggressive behaviour in sending new 4206721fffe3SKacheong Poon * segments. 4207721fffe3SKacheong Poon */ 4208721fffe3SKacheong Poon tcp->tcp_cwnd = tcp->tcp_cwnd_ssthresh + 4209721fffe3SKacheong Poon tcps->tcps_dupack_fast_retransmit * mss; 4210721fffe3SKacheong Poon tcp->tcp_cwnd_cnt = tcp->tcp_cwnd; 4211721fffe3SKacheong Poon flags |= TH_REXMIT_NEEDED; 4212721fffe3SKacheong Poon } 4213721fffe3SKacheong Poon } 4214721fffe3SKacheong Poon } else { 4215721fffe3SKacheong Poon tcp->tcp_dupack_cnt = 0; 4216721fffe3SKacheong Poon if (tcp->tcp_rexmit) { 4217721fffe3SKacheong Poon /* 4218721fffe3SKacheong Poon * TCP is retranmitting. If the ACK ack's all 4219721fffe3SKacheong Poon * outstanding data, update tcp_rexmit_max and 4220721fffe3SKacheong Poon * tcp_rexmit_nxt. Otherwise, update tcp_rexmit_nxt 4221721fffe3SKacheong Poon * to the correct value. 4222721fffe3SKacheong Poon * 4223721fffe3SKacheong Poon * Note that SEQ_LEQ() is used. This is to avoid 4224721fffe3SKacheong Poon * unnecessary fast retransmit caused by dup ACKs 4225721fffe3SKacheong Poon * received when TCP does slow start retransmission 4226721fffe3SKacheong Poon * after a time out. During this phase, TCP may 4227721fffe3SKacheong Poon * send out segments which are already received. 4228721fffe3SKacheong Poon * This causes dup ACKs to be sent back. 4229721fffe3SKacheong Poon */ 4230721fffe3SKacheong Poon if (SEQ_LEQ(seg_ack, tcp->tcp_rexmit_max)) { 4231721fffe3SKacheong Poon if (SEQ_GT(seg_ack, tcp->tcp_rexmit_nxt)) { 4232721fffe3SKacheong Poon tcp->tcp_rexmit_nxt = seg_ack; 4233721fffe3SKacheong Poon } 4234721fffe3SKacheong Poon if (seg_ack != tcp->tcp_rexmit_max) { 4235721fffe3SKacheong Poon flags |= TH_XMIT_NEEDED; 4236721fffe3SKacheong Poon } 4237721fffe3SKacheong Poon } else { 4238721fffe3SKacheong Poon tcp->tcp_rexmit = B_FALSE; 4239721fffe3SKacheong Poon tcp->tcp_rexmit_nxt = tcp->tcp_snxt; 4240721fffe3SKacheong Poon } 4241721fffe3SKacheong Poon tcp->tcp_ms_we_have_waited = 0; 4242721fffe3SKacheong Poon } 4243721fffe3SKacheong Poon } 4244721fffe3SKacheong Poon 4245721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInAckSegs); 4246721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpInAckBytes, bytes_acked); 4247721fffe3SKacheong Poon tcp->tcp_suna = seg_ack; 4248721fffe3SKacheong Poon if (tcp->tcp_zero_win_probe != 0) { 4249721fffe3SKacheong Poon tcp->tcp_zero_win_probe = 0; 4250721fffe3SKacheong Poon tcp->tcp_timer_backoff = 0; 4251721fffe3SKacheong Poon } 4252721fffe3SKacheong Poon 4253721fffe3SKacheong Poon /* 4254721fffe3SKacheong Poon * If tcp_xmit_head is NULL, then it must be the FIN being ack'ed. 4255721fffe3SKacheong Poon * Note that it cannot be the SYN being ack'ed. The code flow 4256721fffe3SKacheong Poon * will not reach here. 4257721fffe3SKacheong Poon */ 4258721fffe3SKacheong Poon if (mp1 == NULL) { 4259721fffe3SKacheong Poon goto fin_acked; 4260721fffe3SKacheong Poon } 4261721fffe3SKacheong Poon 4262721fffe3SKacheong Poon /* 4263721fffe3SKacheong Poon * Update the congestion window. 4264721fffe3SKacheong Poon * 4265721fffe3SKacheong Poon * If TCP is not ECN capable or TCP is ECN capable but the 4266721fffe3SKacheong Poon * congestion experience bit is not set, increase the tcp_cwnd as 4267721fffe3SKacheong Poon * usual. 4268721fffe3SKacheong Poon */ 4269721fffe3SKacheong Poon if (!tcp->tcp_ecn_ok || !(flags & TH_ECE)) { 4270721fffe3SKacheong Poon cwnd = tcp->tcp_cwnd; 4271721fffe3SKacheong Poon add = mss; 4272721fffe3SKacheong Poon 4273721fffe3SKacheong Poon if (cwnd >= tcp->tcp_cwnd_ssthresh) { 4274721fffe3SKacheong Poon /* 4275721fffe3SKacheong Poon * This is to prevent an increase of less than 1 MSS of 4276721fffe3SKacheong Poon * tcp_cwnd. With partial increase, tcp_wput_data() 4277721fffe3SKacheong Poon * may send out tinygrams in order to preserve mblk 4278721fffe3SKacheong Poon * boundaries. 4279721fffe3SKacheong Poon * 4280721fffe3SKacheong Poon * By initializing tcp_cwnd_cnt to new tcp_cwnd and 4281721fffe3SKacheong Poon * decrementing it by 1 MSS for every ACKs, tcp_cwnd is 4282721fffe3SKacheong Poon * increased by 1 MSS for every RTTs. 4283721fffe3SKacheong Poon */ 4284721fffe3SKacheong Poon if (tcp->tcp_cwnd_cnt <= 0) { 4285721fffe3SKacheong Poon tcp->tcp_cwnd_cnt = cwnd + add; 4286721fffe3SKacheong Poon } else { 4287721fffe3SKacheong Poon tcp->tcp_cwnd_cnt -= add; 4288721fffe3SKacheong Poon add = 0; 4289721fffe3SKacheong Poon } 4290721fffe3SKacheong Poon } 4291721fffe3SKacheong Poon tcp->tcp_cwnd = MIN(cwnd + add, tcp->tcp_cwnd_max); 4292721fffe3SKacheong Poon } 4293721fffe3SKacheong Poon 4294721fffe3SKacheong Poon /* See if the latest urgent data has been acknowledged */ 4295721fffe3SKacheong Poon if ((tcp->tcp_valid_bits & TCP_URG_VALID) && 4296721fffe3SKacheong Poon SEQ_GT(seg_ack, tcp->tcp_urg)) 4297721fffe3SKacheong Poon tcp->tcp_valid_bits &= ~TCP_URG_VALID; 4298721fffe3SKacheong Poon 4299721fffe3SKacheong Poon /* Can we update the RTT estimates? */ 4300721fffe3SKacheong Poon if (tcp->tcp_snd_ts_ok) { 4301721fffe3SKacheong Poon /* Ignore zero timestamp echo-reply. */ 4302721fffe3SKacheong Poon if (tcpopt.tcp_opt_ts_ecr != 0) { 4303721fffe3SKacheong Poon tcp_set_rto(tcp, (int32_t)LBOLT_FASTPATH - 4304721fffe3SKacheong Poon (int32_t)tcpopt.tcp_opt_ts_ecr); 4305721fffe3SKacheong Poon } 4306721fffe3SKacheong Poon 4307721fffe3SKacheong Poon /* If needed, restart the timer. */ 4308721fffe3SKacheong Poon if (tcp->tcp_set_timer == 1) { 4309721fffe3SKacheong Poon TCP_TIMER_RESTART(tcp, tcp->tcp_rto); 4310721fffe3SKacheong Poon tcp->tcp_set_timer = 0; 4311721fffe3SKacheong Poon } 4312721fffe3SKacheong Poon /* 4313721fffe3SKacheong Poon * Update tcp_csuna in case the other side stops sending 4314721fffe3SKacheong Poon * us timestamps. 4315721fffe3SKacheong Poon */ 4316721fffe3SKacheong Poon tcp->tcp_csuna = tcp->tcp_snxt; 4317721fffe3SKacheong Poon } else if (SEQ_GT(seg_ack, tcp->tcp_csuna)) { 4318721fffe3SKacheong Poon /* 4319721fffe3SKacheong Poon * An ACK sequence we haven't seen before, so get the RTT 4320721fffe3SKacheong Poon * and update the RTO. But first check if the timestamp is 4321721fffe3SKacheong Poon * valid to use. 4322721fffe3SKacheong Poon */ 4323721fffe3SKacheong Poon if ((mp1->b_next != NULL) && 4324721fffe3SKacheong Poon SEQ_GT(seg_ack, (uint32_t)(uintptr_t)(mp1->b_next))) 4325721fffe3SKacheong Poon tcp_set_rto(tcp, (int32_t)LBOLT_FASTPATH - 4326721fffe3SKacheong Poon (int32_t)(intptr_t)mp1->b_prev); 4327721fffe3SKacheong Poon else 4328721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpRttNoUpdate); 4329721fffe3SKacheong Poon 4330721fffe3SKacheong Poon /* Remeber the last sequence to be ACKed */ 4331721fffe3SKacheong Poon tcp->tcp_csuna = seg_ack; 4332721fffe3SKacheong Poon if (tcp->tcp_set_timer == 1) { 4333721fffe3SKacheong Poon TCP_TIMER_RESTART(tcp, tcp->tcp_rto); 4334721fffe3SKacheong Poon tcp->tcp_set_timer = 0; 4335721fffe3SKacheong Poon } 4336721fffe3SKacheong Poon } else { 4337721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpRttNoUpdate); 4338721fffe3SKacheong Poon } 4339721fffe3SKacheong Poon 4340721fffe3SKacheong Poon /* Eat acknowledged bytes off the xmit queue. */ 4341721fffe3SKacheong Poon for (;;) { 4342721fffe3SKacheong Poon mblk_t *mp2; 4343721fffe3SKacheong Poon uchar_t *wptr; 4344721fffe3SKacheong Poon 4345721fffe3SKacheong Poon wptr = mp1->b_wptr; 4346721fffe3SKacheong Poon ASSERT((uintptr_t)(wptr - mp1->b_rptr) <= (uintptr_t)INT_MAX); 4347721fffe3SKacheong Poon bytes_acked -= (int)(wptr - mp1->b_rptr); 4348721fffe3SKacheong Poon if (bytes_acked < 0) { 4349721fffe3SKacheong Poon mp1->b_rptr = wptr + bytes_acked; 4350721fffe3SKacheong Poon /* 4351721fffe3SKacheong Poon * Set a new timestamp if all the bytes timed by the 4352721fffe3SKacheong Poon * old timestamp have been ack'ed. 4353721fffe3SKacheong Poon */ 4354721fffe3SKacheong Poon if (SEQ_GT(seg_ack, 4355721fffe3SKacheong Poon (uint32_t)(uintptr_t)(mp1->b_next))) { 4356721fffe3SKacheong Poon mp1->b_prev = 4357721fffe3SKacheong Poon (mblk_t *)(uintptr_t)LBOLT_FASTPATH; 4358721fffe3SKacheong Poon mp1->b_next = NULL; 4359721fffe3SKacheong Poon } 4360721fffe3SKacheong Poon break; 4361721fffe3SKacheong Poon } 4362721fffe3SKacheong Poon mp1->b_next = NULL; 4363721fffe3SKacheong Poon mp1->b_prev = NULL; 4364721fffe3SKacheong Poon mp2 = mp1; 4365721fffe3SKacheong Poon mp1 = mp1->b_cont; 4366721fffe3SKacheong Poon 4367721fffe3SKacheong Poon /* 4368721fffe3SKacheong Poon * This notification is required for some zero-copy 4369721fffe3SKacheong Poon * clients to maintain a copy semantic. After the data 4370721fffe3SKacheong Poon * is ack'ed, client is safe to modify or reuse the buffer. 4371721fffe3SKacheong Poon */ 4372721fffe3SKacheong Poon if (tcp->tcp_snd_zcopy_aware && 4373721fffe3SKacheong Poon (mp2->b_datap->db_struioflag & STRUIO_ZCNOTIFY)) 4374721fffe3SKacheong Poon tcp_zcopy_notify(tcp); 4375721fffe3SKacheong Poon freeb(mp2); 4376721fffe3SKacheong Poon if (bytes_acked == 0) { 4377721fffe3SKacheong Poon if (mp1 == NULL) { 4378721fffe3SKacheong Poon /* Everything is ack'ed, clear the tail. */ 4379721fffe3SKacheong Poon tcp->tcp_xmit_tail = NULL; 4380721fffe3SKacheong Poon /* 4381721fffe3SKacheong Poon * Cancel the timer unless we are still 4382721fffe3SKacheong Poon * waiting for an ACK for the FIN packet. 4383721fffe3SKacheong Poon */ 4384721fffe3SKacheong Poon if (tcp->tcp_timer_tid != 0 && 4385721fffe3SKacheong Poon tcp->tcp_snxt == tcp->tcp_suna) { 4386721fffe3SKacheong Poon (void) TCP_TIMER_CANCEL(tcp, 4387721fffe3SKacheong Poon tcp->tcp_timer_tid); 4388721fffe3SKacheong Poon tcp->tcp_timer_tid = 0; 4389721fffe3SKacheong Poon } 4390721fffe3SKacheong Poon goto pre_swnd_update; 4391721fffe3SKacheong Poon } 4392721fffe3SKacheong Poon if (mp2 != tcp->tcp_xmit_tail) 4393721fffe3SKacheong Poon break; 4394721fffe3SKacheong Poon tcp->tcp_xmit_tail = mp1; 4395721fffe3SKacheong Poon ASSERT((uintptr_t)(mp1->b_wptr - mp1->b_rptr) <= 4396721fffe3SKacheong Poon (uintptr_t)INT_MAX); 4397721fffe3SKacheong Poon tcp->tcp_xmit_tail_unsent = (int)(mp1->b_wptr - 4398721fffe3SKacheong Poon mp1->b_rptr); 4399721fffe3SKacheong Poon break; 4400721fffe3SKacheong Poon } 4401721fffe3SKacheong Poon if (mp1 == NULL) { 4402721fffe3SKacheong Poon /* 4403721fffe3SKacheong Poon * More was acked but there is nothing more 4404721fffe3SKacheong Poon * outstanding. This means that the FIN was 4405721fffe3SKacheong Poon * just acked or that we're talking to a clown. 4406721fffe3SKacheong Poon */ 4407721fffe3SKacheong Poon fin_acked: 4408721fffe3SKacheong Poon ASSERT(tcp->tcp_fin_sent); 4409721fffe3SKacheong Poon tcp->tcp_xmit_tail = NULL; 4410721fffe3SKacheong Poon if (tcp->tcp_fin_sent) { 4411721fffe3SKacheong Poon /* FIN was acked - making progress */ 4412721fffe3SKacheong Poon if (!tcp->tcp_fin_acked) 4413721fffe3SKacheong Poon tcp->tcp_ip_forward_progress = B_TRUE; 4414721fffe3SKacheong Poon tcp->tcp_fin_acked = B_TRUE; 4415721fffe3SKacheong Poon if (tcp->tcp_linger_tid != 0 && 4416721fffe3SKacheong Poon TCP_TIMER_CANCEL(tcp, 4417721fffe3SKacheong Poon tcp->tcp_linger_tid) >= 0) { 4418721fffe3SKacheong Poon tcp_stop_lingering(tcp); 4419721fffe3SKacheong Poon freemsg(mp); 4420721fffe3SKacheong Poon mp = NULL; 4421721fffe3SKacheong Poon } 4422721fffe3SKacheong Poon } else { 4423721fffe3SKacheong Poon /* 4424721fffe3SKacheong Poon * We should never get here because 4425721fffe3SKacheong Poon * we have already checked that the 4426721fffe3SKacheong Poon * number of bytes ack'ed should be 4427721fffe3SKacheong Poon * smaller than or equal to what we 4428721fffe3SKacheong Poon * have sent so far (it is the 4429721fffe3SKacheong Poon * acceptability check of the ACK). 4430721fffe3SKacheong Poon * We can only get here if the send 4431721fffe3SKacheong Poon * queue is corrupted. 4432721fffe3SKacheong Poon * 4433721fffe3SKacheong Poon * Terminate the connection and 4434721fffe3SKacheong Poon * panic the system. It is better 4435721fffe3SKacheong Poon * for us to panic instead of 4436721fffe3SKacheong Poon * continuing to avoid other disaster. 4437721fffe3SKacheong Poon */ 4438721fffe3SKacheong Poon tcp_xmit_ctl(NULL, tcp, tcp->tcp_snxt, 4439721fffe3SKacheong Poon tcp->tcp_rnxt, TH_RST|TH_ACK); 4440721fffe3SKacheong Poon panic("Memory corruption " 4441721fffe3SKacheong Poon "detected for connection %s.", 4442721fffe3SKacheong Poon tcp_display(tcp, NULL, 4443721fffe3SKacheong Poon DISP_ADDR_AND_PORT)); 4444721fffe3SKacheong Poon /*NOTREACHED*/ 4445721fffe3SKacheong Poon } 4446721fffe3SKacheong Poon goto pre_swnd_update; 4447721fffe3SKacheong Poon } 4448721fffe3SKacheong Poon ASSERT(mp2 != tcp->tcp_xmit_tail); 4449721fffe3SKacheong Poon } 4450721fffe3SKacheong Poon if (tcp->tcp_unsent) { 4451721fffe3SKacheong Poon flags |= TH_XMIT_NEEDED; 4452721fffe3SKacheong Poon } 4453721fffe3SKacheong Poon pre_swnd_update: 4454721fffe3SKacheong Poon tcp->tcp_xmit_head = mp1; 4455721fffe3SKacheong Poon swnd_update: 4456721fffe3SKacheong Poon /* 4457721fffe3SKacheong Poon * The following check is different from most other implementations. 4458721fffe3SKacheong Poon * For bi-directional transfer, when segments are dropped, the 4459721fffe3SKacheong Poon * "normal" check will not accept a window update in those 4460721fffe3SKacheong Poon * retransmitted segemnts. Failing to do that, TCP may send out 4461721fffe3SKacheong Poon * segments which are outside receiver's window. As TCP accepts 4462721fffe3SKacheong Poon * the ack in those retransmitted segments, if the window update in 4463721fffe3SKacheong Poon * the same segment is not accepted, TCP will incorrectly calculates 4464721fffe3SKacheong Poon * that it can send more segments. This can create a deadlock 4465721fffe3SKacheong Poon * with the receiver if its window becomes zero. 4466721fffe3SKacheong Poon */ 4467721fffe3SKacheong Poon if (SEQ_LT(tcp->tcp_swl2, seg_ack) || 4468721fffe3SKacheong Poon SEQ_LT(tcp->tcp_swl1, seg_seq) || 4469721fffe3SKacheong Poon (tcp->tcp_swl1 == seg_seq && new_swnd > tcp->tcp_swnd)) { 4470721fffe3SKacheong Poon /* 4471721fffe3SKacheong Poon * The criteria for update is: 4472721fffe3SKacheong Poon * 4473721fffe3SKacheong Poon * 1. the segment acknowledges some data. Or 4474721fffe3SKacheong Poon * 2. the segment is new, i.e. it has a higher seq num. Or 4475721fffe3SKacheong Poon * 3. the segment is not old and the advertised window is 4476721fffe3SKacheong Poon * larger than the previous advertised window. 4477721fffe3SKacheong Poon */ 4478721fffe3SKacheong Poon if (tcp->tcp_unsent && new_swnd > tcp->tcp_swnd) 4479721fffe3SKacheong Poon flags |= TH_XMIT_NEEDED; 4480721fffe3SKacheong Poon tcp->tcp_swnd = new_swnd; 4481721fffe3SKacheong Poon if (new_swnd > tcp->tcp_max_swnd) 4482721fffe3SKacheong Poon tcp->tcp_max_swnd = new_swnd; 4483721fffe3SKacheong Poon tcp->tcp_swl1 = seg_seq; 4484721fffe3SKacheong Poon tcp->tcp_swl2 = seg_ack; 4485721fffe3SKacheong Poon } 4486721fffe3SKacheong Poon est: 4487721fffe3SKacheong Poon if (tcp->tcp_state > TCPS_ESTABLISHED) { 4488721fffe3SKacheong Poon 4489721fffe3SKacheong Poon switch (tcp->tcp_state) { 4490721fffe3SKacheong Poon case TCPS_FIN_WAIT_1: 4491721fffe3SKacheong Poon if (tcp->tcp_fin_acked) { 4492721fffe3SKacheong Poon tcp->tcp_state = TCPS_FIN_WAIT_2; 44939cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL, 44949cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa, 44959cd928feSAlan Maguire void, NULL, tcp_t *, tcp, void, NULL, 44969cd928feSAlan Maguire int32_t, TCPS_FIN_WAIT_1); 4497721fffe3SKacheong Poon /* 4498721fffe3SKacheong Poon * We implement the non-standard BSD/SunOS 4499721fffe3SKacheong Poon * FIN_WAIT_2 flushing algorithm. 4500721fffe3SKacheong Poon * If there is no user attached to this 4501721fffe3SKacheong Poon * TCP endpoint, then this TCP struct 4502721fffe3SKacheong Poon * could hang around forever in FIN_WAIT_2 4503721fffe3SKacheong Poon * state if the peer forgets to send us 4504721fffe3SKacheong Poon * a FIN. To prevent this, we wait only 4505721fffe3SKacheong Poon * 2*MSL (a convenient time value) for 4506721fffe3SKacheong Poon * the FIN to arrive. If it doesn't show up, 4507721fffe3SKacheong Poon * we flush the TCP endpoint. This algorithm, 4508721fffe3SKacheong Poon * though a violation of RFC-793, has worked 4509721fffe3SKacheong Poon * for over 10 years in BSD systems. 4510721fffe3SKacheong Poon * Note: SunOS 4.x waits 675 seconds before 4511721fffe3SKacheong Poon * flushing the FIN_WAIT_2 connection. 4512721fffe3SKacheong Poon */ 4513721fffe3SKacheong Poon TCP_TIMER_RESTART(tcp, 4514707e74bcSKacheong Poon tcp->tcp_fin_wait_2_flush_interval); 4515721fffe3SKacheong Poon } 4516721fffe3SKacheong Poon break; 4517721fffe3SKacheong Poon case TCPS_FIN_WAIT_2: 4518721fffe3SKacheong Poon break; /* Shutdown hook? */ 4519721fffe3SKacheong Poon case TCPS_LAST_ACK: 4520721fffe3SKacheong Poon freemsg(mp); 4521721fffe3SKacheong Poon if (tcp->tcp_fin_acked) { 4522721fffe3SKacheong Poon (void) tcp_clean_death(tcp, 0); 4523721fffe3SKacheong Poon return; 4524721fffe3SKacheong Poon } 4525721fffe3SKacheong Poon goto xmit_check; 4526721fffe3SKacheong Poon case TCPS_CLOSING: 45279cd928feSAlan Maguire if (tcp->tcp_fin_acked) { 4528721fffe3SKacheong Poon SET_TIME_WAIT(tcps, tcp, connp); 45299cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL, 45309cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa, void, 45319cd928feSAlan Maguire NULL, tcp_t *, tcp, void, NULL, int32_t, 45329cd928feSAlan Maguire TCPS_CLOSING); 45339cd928feSAlan Maguire } 4534721fffe3SKacheong Poon /*FALLTHRU*/ 4535721fffe3SKacheong Poon case TCPS_CLOSE_WAIT: 4536721fffe3SKacheong Poon freemsg(mp); 4537721fffe3SKacheong Poon goto xmit_check; 4538721fffe3SKacheong Poon default: 4539721fffe3SKacheong Poon ASSERT(tcp->tcp_state != TCPS_TIME_WAIT); 4540721fffe3SKacheong Poon break; 4541721fffe3SKacheong Poon } 4542721fffe3SKacheong Poon } 4543721fffe3SKacheong Poon if (flags & TH_FIN) { 4544721fffe3SKacheong Poon /* Make sure we ack the fin */ 4545721fffe3SKacheong Poon flags |= TH_ACK_NEEDED; 4546721fffe3SKacheong Poon if (!tcp->tcp_fin_rcvd) { 4547721fffe3SKacheong Poon tcp->tcp_fin_rcvd = B_TRUE; 4548721fffe3SKacheong Poon tcp->tcp_rnxt++; 4549721fffe3SKacheong Poon tcpha = tcp->tcp_tcpha; 4550721fffe3SKacheong Poon tcpha->tha_ack = htonl(tcp->tcp_rnxt); 4551721fffe3SKacheong Poon 4552721fffe3SKacheong Poon /* 45533e95bd4aSAnders Persson * Generate the ordrel_ind at the end unless the 45543e95bd4aSAnders Persson * conn is detached or it is a STREAMS based eager. 45553e95bd4aSAnders Persson * In the eager case we defer the notification until 45563e95bd4aSAnders Persson * tcp_accept_finish has run. 4557721fffe3SKacheong Poon */ 45583e95bd4aSAnders Persson if (!TCP_IS_DETACHED(tcp) && (IPCL_IS_NONSTR(connp) || 45593e95bd4aSAnders Persson (tcp->tcp_listener == NULL && 45603e95bd4aSAnders Persson !tcp->tcp_hard_binding))) 4561721fffe3SKacheong Poon flags |= TH_ORDREL_NEEDED; 4562721fffe3SKacheong Poon switch (tcp->tcp_state) { 4563721fffe3SKacheong Poon case TCPS_SYN_RCVD: 45649cd928feSAlan Maguire tcp->tcp_state = TCPS_CLOSE_WAIT; 45659cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL, 45669cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa, 45679cd928feSAlan Maguire void, NULL, tcp_t *, tcp, void, NULL, 45689cd928feSAlan Maguire int32_t, TCPS_SYN_RCVD); 45699cd928feSAlan Maguire /* Keepalive? */ 45709cd928feSAlan Maguire break; 4571721fffe3SKacheong Poon case TCPS_ESTABLISHED: 4572721fffe3SKacheong Poon tcp->tcp_state = TCPS_CLOSE_WAIT; 45739cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL, 45749cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa, 45759cd928feSAlan Maguire void, NULL, tcp_t *, tcp, void, NULL, 45769cd928feSAlan Maguire int32_t, TCPS_ESTABLISHED); 4577721fffe3SKacheong Poon /* Keepalive? */ 4578721fffe3SKacheong Poon break; 4579721fffe3SKacheong Poon case TCPS_FIN_WAIT_1: 4580721fffe3SKacheong Poon if (!tcp->tcp_fin_acked) { 4581721fffe3SKacheong Poon tcp->tcp_state = TCPS_CLOSING; 45829cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL, 45839cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa, 45849cd928feSAlan Maguire void, NULL, tcp_t *, tcp, void, 45859cd928feSAlan Maguire NULL, int32_t, TCPS_FIN_WAIT_1); 4586721fffe3SKacheong Poon break; 4587721fffe3SKacheong Poon } 4588721fffe3SKacheong Poon /* FALLTHRU */ 4589721fffe3SKacheong Poon case TCPS_FIN_WAIT_2: 4590721fffe3SKacheong Poon SET_TIME_WAIT(tcps, tcp, connp); 45919cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL, 45929cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa, void, 45939cd928feSAlan Maguire NULL, tcp_t *, tcp, void, NULL, int32_t, 45949cd928feSAlan Maguire TCPS_FIN_WAIT_2); 4595721fffe3SKacheong Poon if (seg_len) { 4596721fffe3SKacheong Poon /* 4597721fffe3SKacheong Poon * implies data piggybacked on FIN. 4598721fffe3SKacheong Poon * break to handle data. 4599721fffe3SKacheong Poon */ 4600721fffe3SKacheong Poon break; 4601721fffe3SKacheong Poon } 4602721fffe3SKacheong Poon freemsg(mp); 4603721fffe3SKacheong Poon goto ack_check; 4604721fffe3SKacheong Poon } 4605721fffe3SKacheong Poon } 4606721fffe3SKacheong Poon } 4607721fffe3SKacheong Poon if (mp == NULL) 4608721fffe3SKacheong Poon goto xmit_check; 4609721fffe3SKacheong Poon if (seg_len == 0) { 4610721fffe3SKacheong Poon freemsg(mp); 4611721fffe3SKacheong Poon goto xmit_check; 4612721fffe3SKacheong Poon } 4613721fffe3SKacheong Poon if (mp->b_rptr == mp->b_wptr) { 4614721fffe3SKacheong Poon /* 4615721fffe3SKacheong Poon * The header has been consumed, so we remove the 4616721fffe3SKacheong Poon * zero-length mblk here. 4617721fffe3SKacheong Poon */ 4618721fffe3SKacheong Poon mp1 = mp; 4619721fffe3SKacheong Poon mp = mp->b_cont; 4620721fffe3SKacheong Poon freeb(mp1); 4621721fffe3SKacheong Poon } 4622721fffe3SKacheong Poon update_ack: 4623721fffe3SKacheong Poon tcpha = tcp->tcp_tcpha; 4624721fffe3SKacheong Poon tcp->tcp_rack_cnt++; 4625721fffe3SKacheong Poon { 4626721fffe3SKacheong Poon uint32_t cur_max; 4627721fffe3SKacheong Poon 4628721fffe3SKacheong Poon cur_max = tcp->tcp_rack_cur_max; 4629721fffe3SKacheong Poon if (tcp->tcp_rack_cnt >= cur_max) { 4630721fffe3SKacheong Poon /* 4631721fffe3SKacheong Poon * We have more unacked data than we should - send 4632721fffe3SKacheong Poon * an ACK now. 4633721fffe3SKacheong Poon */ 4634721fffe3SKacheong Poon flags |= TH_ACK_NEEDED; 4635721fffe3SKacheong Poon cur_max++; 4636721fffe3SKacheong Poon if (cur_max > tcp->tcp_rack_abs_max) 4637721fffe3SKacheong Poon tcp->tcp_rack_cur_max = tcp->tcp_rack_abs_max; 4638721fffe3SKacheong Poon else 4639721fffe3SKacheong Poon tcp->tcp_rack_cur_max = cur_max; 4640721fffe3SKacheong Poon } else if (TCP_IS_DETACHED(tcp)) { 4641721fffe3SKacheong Poon /* We don't have an ACK timer for detached TCP. */ 4642721fffe3SKacheong Poon flags |= TH_ACK_NEEDED; 4643721fffe3SKacheong Poon } else if (seg_len < mss) { 4644721fffe3SKacheong Poon /* 4645721fffe3SKacheong Poon * If we get a segment that is less than an mss, and we 4646721fffe3SKacheong Poon * already have unacknowledged data, and the amount 4647721fffe3SKacheong Poon * unacknowledged is not a multiple of mss, then we 4648721fffe3SKacheong Poon * better generate an ACK now. Otherwise, this may be 4649721fffe3SKacheong Poon * the tail piece of a transaction, and we would rather 4650721fffe3SKacheong Poon * wait for the response. 4651721fffe3SKacheong Poon */ 4652721fffe3SKacheong Poon uint32_t udif; 4653721fffe3SKacheong Poon ASSERT((uintptr_t)(tcp->tcp_rnxt - tcp->tcp_rack) <= 4654721fffe3SKacheong Poon (uintptr_t)INT_MAX); 4655721fffe3SKacheong Poon udif = (int)(tcp->tcp_rnxt - tcp->tcp_rack); 4656721fffe3SKacheong Poon if (udif && (udif % mss)) 4657721fffe3SKacheong Poon flags |= TH_ACK_NEEDED; 4658721fffe3SKacheong Poon else 4659721fffe3SKacheong Poon flags |= TH_ACK_TIMER_NEEDED; 4660721fffe3SKacheong Poon } else { 4661721fffe3SKacheong Poon /* Start delayed ack timer */ 4662721fffe3SKacheong Poon flags |= TH_ACK_TIMER_NEEDED; 4663721fffe3SKacheong Poon } 4664721fffe3SKacheong Poon } 4665721fffe3SKacheong Poon tcp->tcp_rnxt += seg_len; 4666721fffe3SKacheong Poon tcpha->tha_ack = htonl(tcp->tcp_rnxt); 4667721fffe3SKacheong Poon 4668721fffe3SKacheong Poon if (mp == NULL) 4669721fffe3SKacheong Poon goto xmit_check; 4670721fffe3SKacheong Poon 4671721fffe3SKacheong Poon /* Update SACK list */ 4672721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok && tcp->tcp_num_sack_blk > 0) { 4673721fffe3SKacheong Poon tcp_sack_remove(tcp->tcp_sack_list, tcp->tcp_rnxt, 4674721fffe3SKacheong Poon &(tcp->tcp_num_sack_blk)); 4675721fffe3SKacheong Poon } 4676721fffe3SKacheong Poon 4677721fffe3SKacheong Poon if (tcp->tcp_urp_mp) { 4678721fffe3SKacheong Poon tcp->tcp_urp_mp->b_cont = mp; 4679721fffe3SKacheong Poon mp = tcp->tcp_urp_mp; 4680721fffe3SKacheong Poon tcp->tcp_urp_mp = NULL; 4681721fffe3SKacheong Poon /* Ready for a new signal. */ 4682721fffe3SKacheong Poon tcp->tcp_urp_last_valid = B_FALSE; 4683721fffe3SKacheong Poon #ifdef DEBUG 4684721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE, 4685721fffe3SKacheong Poon "tcp_rput: sending exdata_ind %s", 4686721fffe3SKacheong Poon tcp_display(tcp, NULL, DISP_PORT_ONLY)); 4687721fffe3SKacheong Poon #endif /* DEBUG */ 4688721fffe3SKacheong Poon } 4689721fffe3SKacheong Poon 4690721fffe3SKacheong Poon /* 4691721fffe3SKacheong Poon * Check for ancillary data changes compared to last segment. 4692721fffe3SKacheong Poon */ 4693721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_all != 0) { 4694721fffe3SKacheong Poon mp = tcp_input_add_ancillary(tcp, mp, &ipp, ira); 4695721fffe3SKacheong Poon if (mp == NULL) 4696721fffe3SKacheong Poon return; 4697721fffe3SKacheong Poon } 4698721fffe3SKacheong Poon 46993e95bd4aSAnders Persson if (IPCL_IS_NONSTR(connp)) { 4700721fffe3SKacheong Poon /* 4701721fffe3SKacheong Poon * Non-STREAMS socket 4702721fffe3SKacheong Poon */ 4703721fffe3SKacheong Poon boolean_t push = flags & (TH_PUSH|TH_FIN); 4704721fffe3SKacheong Poon int error; 4705721fffe3SKacheong Poon 4706f2297e92SDan McDonald if ((*sockupcalls->su_recv)(connp->conn_upper_handle, 4707721fffe3SKacheong Poon mp, seg_len, 0, &error, &push) <= 0) { 4708721fffe3SKacheong Poon /* 4709721fffe3SKacheong Poon * We should never be in middle of a 4710721fffe3SKacheong Poon * fallback, the squeue guarantees that. 4711721fffe3SKacheong Poon */ 4712721fffe3SKacheong Poon ASSERT(error != EOPNOTSUPP); 4713721fffe3SKacheong Poon if (error == ENOSPC) 4714721fffe3SKacheong Poon tcp->tcp_rwnd -= seg_len; 4715721fffe3SKacheong Poon } else if (push) { 4716721fffe3SKacheong Poon /* PUSH bit set and sockfs is not flow controlled */ 4717721fffe3SKacheong Poon flags |= tcp_rwnd_reopen(tcp); 4718721fffe3SKacheong Poon } 47193e95bd4aSAnders Persson } else if (tcp->tcp_listener != NULL || tcp->tcp_hard_binding) { 47203e95bd4aSAnders Persson /* 47213e95bd4aSAnders Persson * Side queue inbound data until the accept happens. 47223e95bd4aSAnders Persson * tcp_accept/tcp_rput drains this when the accept happens. 47233e95bd4aSAnders Persson * M_DATA is queued on b_cont. Otherwise (T_OPTDATA_IND or 47243e95bd4aSAnders Persson * T_EXDATA_IND) it is queued on b_next. 47253e95bd4aSAnders Persson * XXX Make urgent data use this. Requires: 47263e95bd4aSAnders Persson * Removing tcp_listener check for TH_URG 47273e95bd4aSAnders Persson * Making M_PCPROTO and MARK messages skip the eager case 47283e95bd4aSAnders Persson */ 47293e95bd4aSAnders Persson 47303e95bd4aSAnders Persson tcp_rcv_enqueue(tcp, mp, seg_len, ira->ira_cred); 47313e95bd4aSAnders Persson } else { 47323e95bd4aSAnders Persson /* Active STREAMS socket */ 4733721fffe3SKacheong Poon if (mp->b_datap->db_type != M_DATA || 4734721fffe3SKacheong Poon (flags & TH_MARKNEXT_NEEDED)) { 4735721fffe3SKacheong Poon if (tcp->tcp_rcv_list != NULL) { 4736721fffe3SKacheong Poon flags |= tcp_rcv_drain(tcp); 4737721fffe3SKacheong Poon } 4738721fffe3SKacheong Poon ASSERT(tcp->tcp_rcv_list == NULL || 4739721fffe3SKacheong Poon tcp->tcp_fused_sigurg); 4740721fffe3SKacheong Poon 4741721fffe3SKacheong Poon if (flags & TH_MARKNEXT_NEEDED) { 4742721fffe3SKacheong Poon #ifdef DEBUG 4743721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE, 4744721fffe3SKacheong Poon "tcp_rput: sending MSGMARKNEXT %s", 4745721fffe3SKacheong Poon tcp_display(tcp, NULL, 4746721fffe3SKacheong Poon DISP_PORT_ONLY)); 4747721fffe3SKacheong Poon #endif /* DEBUG */ 4748721fffe3SKacheong Poon mp->b_flag |= MSGMARKNEXT; 4749721fffe3SKacheong Poon flags &= ~TH_MARKNEXT_NEEDED; 4750721fffe3SKacheong Poon } 4751721fffe3SKacheong Poon 4752721fffe3SKacheong Poon if (is_system_labeled()) 4753721fffe3SKacheong Poon tcp_setcred_data(mp, ira); 4754721fffe3SKacheong Poon 4755721fffe3SKacheong Poon putnext(connp->conn_rq, mp); 4756721fffe3SKacheong Poon if (!canputnext(connp->conn_rq)) 4757721fffe3SKacheong Poon tcp->tcp_rwnd -= seg_len; 4758721fffe3SKacheong Poon } else if ((flags & (TH_PUSH|TH_FIN)) || 4759721fffe3SKacheong Poon tcp->tcp_rcv_cnt + seg_len >= connp->conn_rcvbuf >> 3) { 4760721fffe3SKacheong Poon if (tcp->tcp_rcv_list != NULL) { 4761721fffe3SKacheong Poon /* 4762721fffe3SKacheong Poon * Enqueue the new segment first and then 4763721fffe3SKacheong Poon * call tcp_rcv_drain() to send all data 4764721fffe3SKacheong Poon * up. The other way to do this is to 4765721fffe3SKacheong Poon * send all queued data up and then call 4766721fffe3SKacheong Poon * putnext() to send the new segment up. 4767721fffe3SKacheong Poon * This way can remove the else part later 4768721fffe3SKacheong Poon * on. 4769721fffe3SKacheong Poon * 4770721fffe3SKacheong Poon * We don't do this to avoid one more call to 4771721fffe3SKacheong Poon * canputnext() as tcp_rcv_drain() needs to 4772721fffe3SKacheong Poon * call canputnext(). 4773721fffe3SKacheong Poon */ 4774721fffe3SKacheong Poon tcp_rcv_enqueue(tcp, mp, seg_len, 4775721fffe3SKacheong Poon ira->ira_cred); 4776721fffe3SKacheong Poon flags |= tcp_rcv_drain(tcp); 4777721fffe3SKacheong Poon } else { 4778721fffe3SKacheong Poon if (is_system_labeled()) 4779721fffe3SKacheong Poon tcp_setcred_data(mp, ira); 4780721fffe3SKacheong Poon 4781721fffe3SKacheong Poon putnext(connp->conn_rq, mp); 4782721fffe3SKacheong Poon if (!canputnext(connp->conn_rq)) 4783721fffe3SKacheong Poon tcp->tcp_rwnd -= seg_len; 4784721fffe3SKacheong Poon } 4785721fffe3SKacheong Poon } else { 4786721fffe3SKacheong Poon /* 4787721fffe3SKacheong Poon * Enqueue all packets when processing an mblk 4788721fffe3SKacheong Poon * from the co queue and also enqueue normal packets. 4789721fffe3SKacheong Poon */ 4790721fffe3SKacheong Poon tcp_rcv_enqueue(tcp, mp, seg_len, ira->ira_cred); 4791721fffe3SKacheong Poon } 4792721fffe3SKacheong Poon /* 4793721fffe3SKacheong Poon * Make sure the timer is running if we have data waiting 4794721fffe3SKacheong Poon * for a push bit. This provides resiliency against 4795721fffe3SKacheong Poon * implementations that do not correctly generate push bits. 4796721fffe3SKacheong Poon */ 4797721fffe3SKacheong Poon if (tcp->tcp_rcv_list != NULL && tcp->tcp_push_tid == 0) { 4798721fffe3SKacheong Poon /* 4799721fffe3SKacheong Poon * The connection may be closed at this point, so don't 4800721fffe3SKacheong Poon * do anything for a detached tcp. 4801721fffe3SKacheong Poon */ 4802721fffe3SKacheong Poon if (!TCP_IS_DETACHED(tcp)) 4803721fffe3SKacheong Poon tcp->tcp_push_tid = TCP_TIMER(tcp, 4804721fffe3SKacheong Poon tcp_push_timer, 480566cd0f60SKacheong Poon tcps->tcps_push_timer_interval); 4806721fffe3SKacheong Poon } 4807721fffe3SKacheong Poon } 4808721fffe3SKacheong Poon 4809721fffe3SKacheong Poon xmit_check: 4810721fffe3SKacheong Poon /* Is there anything left to do? */ 4811721fffe3SKacheong Poon ASSERT(!(flags & TH_MARKNEXT_NEEDED)); 4812721fffe3SKacheong Poon if ((flags & (TH_REXMIT_NEEDED|TH_XMIT_NEEDED|TH_ACK_NEEDED| 4813721fffe3SKacheong Poon TH_NEED_SACK_REXMIT|TH_LIMIT_XMIT|TH_ACK_TIMER_NEEDED| 4814721fffe3SKacheong Poon TH_ORDREL_NEEDED|TH_SEND_URP_MARK)) == 0) 4815721fffe3SKacheong Poon goto done; 4816721fffe3SKacheong Poon 4817721fffe3SKacheong Poon /* Any transmit work to do and a non-zero window? */ 4818721fffe3SKacheong Poon if ((flags & (TH_REXMIT_NEEDED|TH_XMIT_NEEDED|TH_NEED_SACK_REXMIT| 4819721fffe3SKacheong Poon TH_LIMIT_XMIT)) && tcp->tcp_swnd != 0) { 4820721fffe3SKacheong Poon if (flags & TH_REXMIT_NEEDED) { 4821721fffe3SKacheong Poon uint32_t snd_size = tcp->tcp_snxt - tcp->tcp_suna; 4822721fffe3SKacheong Poon 4823721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpOutFastRetrans); 4824721fffe3SKacheong Poon if (snd_size > mss) 4825721fffe3SKacheong Poon snd_size = mss; 4826721fffe3SKacheong Poon if (snd_size > tcp->tcp_swnd) 4827721fffe3SKacheong Poon snd_size = tcp->tcp_swnd; 4828721fffe3SKacheong Poon mp1 = tcp_xmit_mp(tcp, tcp->tcp_xmit_head, snd_size, 4829721fffe3SKacheong Poon NULL, NULL, tcp->tcp_suna, B_TRUE, &snd_size, 4830721fffe3SKacheong Poon B_TRUE); 4831721fffe3SKacheong Poon 4832721fffe3SKacheong Poon if (mp1 != NULL) { 4833721fffe3SKacheong Poon tcp->tcp_xmit_head->b_prev = 4834721fffe3SKacheong Poon (mblk_t *)LBOLT_FASTPATH; 4835721fffe3SKacheong Poon tcp->tcp_csuna = tcp->tcp_snxt; 4836721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpRetransSegs); 4837721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpRetransBytes, 4838721fffe3SKacheong Poon snd_size); 4839721fffe3SKacheong Poon tcp_send_data(tcp, mp1); 4840721fffe3SKacheong Poon } 4841721fffe3SKacheong Poon } 4842721fffe3SKacheong Poon if (flags & TH_NEED_SACK_REXMIT) { 4843721fffe3SKacheong Poon tcp_sack_rexmit(tcp, &flags); 4844721fffe3SKacheong Poon } 4845721fffe3SKacheong Poon /* 4846721fffe3SKacheong Poon * For TH_LIMIT_XMIT, tcp_wput_data() is called to send 4847721fffe3SKacheong Poon * out new segment. Note that tcp_rexmit should not be 4848721fffe3SKacheong Poon * set, otherwise TH_LIMIT_XMIT should not be set. 4849721fffe3SKacheong Poon */ 4850721fffe3SKacheong Poon if (flags & (TH_XMIT_NEEDED|TH_LIMIT_XMIT)) { 4851721fffe3SKacheong Poon if (!tcp->tcp_rexmit) { 4852721fffe3SKacheong Poon tcp_wput_data(tcp, NULL, B_FALSE); 4853721fffe3SKacheong Poon } else { 4854721fffe3SKacheong Poon tcp_ss_rexmit(tcp); 4855721fffe3SKacheong Poon } 4856721fffe3SKacheong Poon } 4857721fffe3SKacheong Poon /* 4858721fffe3SKacheong Poon * Adjust tcp_cwnd back to normal value after sending 4859721fffe3SKacheong Poon * new data segments. 4860721fffe3SKacheong Poon */ 4861721fffe3SKacheong Poon if (flags & TH_LIMIT_XMIT) { 4862721fffe3SKacheong Poon tcp->tcp_cwnd -= mss << (tcp->tcp_dupack_cnt - 1); 4863721fffe3SKacheong Poon /* 4864721fffe3SKacheong Poon * This will restart the timer. Restarting the 4865721fffe3SKacheong Poon * timer is used to avoid a timeout before the 4866721fffe3SKacheong Poon * limited transmitted segment's ACK gets back. 4867721fffe3SKacheong Poon */ 4868721fffe3SKacheong Poon if (tcp->tcp_xmit_head != NULL) 4869721fffe3SKacheong Poon tcp->tcp_xmit_head->b_prev = 4870721fffe3SKacheong Poon (mblk_t *)LBOLT_FASTPATH; 4871721fffe3SKacheong Poon } 4872721fffe3SKacheong Poon 4873721fffe3SKacheong Poon /* Anything more to do? */ 4874721fffe3SKacheong Poon if ((flags & (TH_ACK_NEEDED|TH_ACK_TIMER_NEEDED| 4875721fffe3SKacheong Poon TH_ORDREL_NEEDED|TH_SEND_URP_MARK)) == 0) 4876721fffe3SKacheong Poon goto done; 4877721fffe3SKacheong Poon } 4878721fffe3SKacheong Poon ack_check: 4879721fffe3SKacheong Poon if (flags & TH_SEND_URP_MARK) { 4880721fffe3SKacheong Poon ASSERT(tcp->tcp_urp_mark_mp); 4881721fffe3SKacheong Poon ASSERT(!IPCL_IS_NONSTR(connp)); 4882721fffe3SKacheong Poon /* 4883721fffe3SKacheong Poon * Send up any queued data and then send the mark message 4884721fffe3SKacheong Poon */ 4885721fffe3SKacheong Poon if (tcp->tcp_rcv_list != NULL) { 4886721fffe3SKacheong Poon flags |= tcp_rcv_drain(tcp); 4887721fffe3SKacheong Poon 4888721fffe3SKacheong Poon } 4889721fffe3SKacheong Poon ASSERT(tcp->tcp_rcv_list == NULL || tcp->tcp_fused_sigurg); 4890721fffe3SKacheong Poon mp1 = tcp->tcp_urp_mark_mp; 4891721fffe3SKacheong Poon tcp->tcp_urp_mark_mp = NULL; 4892721fffe3SKacheong Poon if (is_system_labeled()) 4893721fffe3SKacheong Poon tcp_setcred_data(mp1, ira); 4894721fffe3SKacheong Poon 4895721fffe3SKacheong Poon putnext(connp->conn_rq, mp1); 4896721fffe3SKacheong Poon #ifdef DEBUG 4897721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE, 4898721fffe3SKacheong Poon "tcp_rput: sending zero-length %s %s", 4899721fffe3SKacheong Poon ((mp1->b_flag & MSGMARKNEXT) ? "MSGMARKNEXT" : 4900721fffe3SKacheong Poon "MSGNOTMARKNEXT"), 4901721fffe3SKacheong Poon tcp_display(tcp, NULL, DISP_PORT_ONLY)); 4902721fffe3SKacheong Poon #endif /* DEBUG */ 4903721fffe3SKacheong Poon flags &= ~TH_SEND_URP_MARK; 4904721fffe3SKacheong Poon } 4905721fffe3SKacheong Poon if (flags & TH_ACK_NEEDED) { 4906721fffe3SKacheong Poon /* 4907721fffe3SKacheong Poon * Time to send an ack for some reason. 4908721fffe3SKacheong Poon */ 4909721fffe3SKacheong Poon mp1 = tcp_ack_mp(tcp); 4910721fffe3SKacheong Poon 4911721fffe3SKacheong Poon if (mp1 != NULL) { 4912721fffe3SKacheong Poon tcp_send_data(tcp, mp1); 4913721fffe3SKacheong Poon BUMP_LOCAL(tcp->tcp_obsegs); 4914721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpOutAck); 4915721fffe3SKacheong Poon } 4916721fffe3SKacheong Poon if (tcp->tcp_ack_tid != 0) { 4917721fffe3SKacheong Poon (void) TCP_TIMER_CANCEL(tcp, tcp->tcp_ack_tid); 4918721fffe3SKacheong Poon tcp->tcp_ack_tid = 0; 4919721fffe3SKacheong Poon } 4920721fffe3SKacheong Poon } 4921721fffe3SKacheong Poon if (flags & TH_ACK_TIMER_NEEDED) { 4922721fffe3SKacheong Poon /* 4923721fffe3SKacheong Poon * Arrange for deferred ACK or push wait timeout. 4924721fffe3SKacheong Poon * Start timer if it is not already running. 4925721fffe3SKacheong Poon */ 4926721fffe3SKacheong Poon if (tcp->tcp_ack_tid == 0) { 4927721fffe3SKacheong Poon tcp->tcp_ack_tid = TCP_TIMER(tcp, tcp_ack_timer, 492866cd0f60SKacheong Poon tcp->tcp_localnet ? 492966cd0f60SKacheong Poon tcps->tcps_local_dack_interval : 493066cd0f60SKacheong Poon tcps->tcps_deferred_ack_interval); 4931721fffe3SKacheong Poon } 4932721fffe3SKacheong Poon } 4933721fffe3SKacheong Poon if (flags & TH_ORDREL_NEEDED) { 4934721fffe3SKacheong Poon /* 49353e95bd4aSAnders Persson * Notify upper layer about an orderly release. If this is 49363e95bd4aSAnders Persson * a non-STREAMS socket, then just make an upcall. For STREAMS 49373e95bd4aSAnders Persson * we send up an ordrel_ind, unless this is an eager, in which 49383e95bd4aSAnders Persson * case the ordrel will be sent when tcp_accept_finish runs. 49393e95bd4aSAnders Persson * Note that for non-STREAMS we make an upcall even if it is an 49403e95bd4aSAnders Persson * eager, because we have an upper handle to send it to. 4941721fffe3SKacheong Poon */ 49423e95bd4aSAnders Persson ASSERT(IPCL_IS_NONSTR(connp) || tcp->tcp_listener == NULL); 4943721fffe3SKacheong Poon ASSERT(!tcp->tcp_detached); 4944721fffe3SKacheong Poon 4945721fffe3SKacheong Poon if (IPCL_IS_NONSTR(connp)) { 4946721fffe3SKacheong Poon ASSERT(tcp->tcp_ordrel_mp == NULL); 4947721fffe3SKacheong Poon tcp->tcp_ordrel_done = B_TRUE; 4948f2297e92SDan McDonald (*sockupcalls->su_opctl)(connp->conn_upper_handle, 4949f2297e92SDan McDonald SOCK_OPCTL_SHUT_RECV, 0); 4950721fffe3SKacheong Poon goto done; 4951721fffe3SKacheong Poon } 4952721fffe3SKacheong Poon 4953721fffe3SKacheong Poon if (tcp->tcp_rcv_list != NULL) { 4954721fffe3SKacheong Poon /* 4955721fffe3SKacheong Poon * Push any mblk(s) enqueued from co processing. 4956721fffe3SKacheong Poon */ 4957721fffe3SKacheong Poon flags |= tcp_rcv_drain(tcp); 4958721fffe3SKacheong Poon } 4959721fffe3SKacheong Poon ASSERT(tcp->tcp_rcv_list == NULL || tcp->tcp_fused_sigurg); 4960721fffe3SKacheong Poon 4961721fffe3SKacheong Poon mp1 = tcp->tcp_ordrel_mp; 4962721fffe3SKacheong Poon tcp->tcp_ordrel_mp = NULL; 4963721fffe3SKacheong Poon tcp->tcp_ordrel_done = B_TRUE; 4964721fffe3SKacheong Poon putnext(connp->conn_rq, mp1); 4965721fffe3SKacheong Poon } 4966721fffe3SKacheong Poon done: 4967721fffe3SKacheong Poon ASSERT(!(flags & TH_MARKNEXT_NEEDED)); 4968721fffe3SKacheong Poon } 4969721fffe3SKacheong Poon 4970721fffe3SKacheong Poon /* 4971721fffe3SKacheong Poon * Attach ancillary data to a received TCP segments for the 4972721fffe3SKacheong Poon * ancillary pieces requested by the application that are 4973721fffe3SKacheong Poon * different than they were in the previous data segment. 4974721fffe3SKacheong Poon * 4975721fffe3SKacheong Poon * Save the "current" values once memory allocation is ok so that 4976721fffe3SKacheong Poon * when memory allocation fails we can just wait for the next data segment. 4977721fffe3SKacheong Poon */ 4978721fffe3SKacheong Poon static mblk_t * 4979721fffe3SKacheong Poon tcp_input_add_ancillary(tcp_t *tcp, mblk_t *mp, ip_pkt_t *ipp, 4980721fffe3SKacheong Poon ip_recv_attr_t *ira) 4981721fffe3SKacheong Poon { 4982721fffe3SKacheong Poon struct T_optdata_ind *todi; 4983721fffe3SKacheong Poon int optlen; 4984721fffe3SKacheong Poon uchar_t *optptr; 4985721fffe3SKacheong Poon struct T_opthdr *toh; 4986721fffe3SKacheong Poon crb_t addflag; /* Which pieces to add */ 4987721fffe3SKacheong Poon mblk_t *mp1; 4988721fffe3SKacheong Poon conn_t *connp = tcp->tcp_connp; 4989721fffe3SKacheong Poon 4990721fffe3SKacheong Poon optlen = 0; 4991721fffe3SKacheong Poon addflag.crb_all = 0; 4992721fffe3SKacheong Poon /* If app asked for pktinfo and the index has changed ... */ 4993721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_ip_recvpktinfo && 4994721fffe3SKacheong Poon ira->ira_ruifindex != tcp->tcp_recvifindex) { 4995721fffe3SKacheong Poon optlen += sizeof (struct T_opthdr) + 4996721fffe3SKacheong Poon sizeof (struct in6_pktinfo); 4997721fffe3SKacheong Poon addflag.crb_ip_recvpktinfo = 1; 4998721fffe3SKacheong Poon } 4999721fffe3SKacheong Poon /* If app asked for hoplimit and it has changed ... */ 5000721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_ipv6_recvhoplimit && 5001721fffe3SKacheong Poon ipp->ipp_hoplimit != tcp->tcp_recvhops) { 5002721fffe3SKacheong Poon optlen += sizeof (struct T_opthdr) + sizeof (uint_t); 5003721fffe3SKacheong Poon addflag.crb_ipv6_recvhoplimit = 1; 5004721fffe3SKacheong Poon } 5005721fffe3SKacheong Poon /* If app asked for tclass and it has changed ... */ 5006721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_ipv6_recvtclass && 5007721fffe3SKacheong Poon ipp->ipp_tclass != tcp->tcp_recvtclass) { 5008721fffe3SKacheong Poon optlen += sizeof (struct T_opthdr) + sizeof (uint_t); 5009721fffe3SKacheong Poon addflag.crb_ipv6_recvtclass = 1; 5010721fffe3SKacheong Poon } 5011721fffe3SKacheong Poon /* 5012721fffe3SKacheong Poon * If app asked for hopbyhop headers and it has changed ... 5013721fffe3SKacheong Poon * For security labels, note that (1) security labels can't change on 5014721fffe3SKacheong Poon * a connected socket at all, (2) we're connected to at most one peer, 5015721fffe3SKacheong Poon * (3) if anything changes, then it must be some other extra option. 5016721fffe3SKacheong Poon */ 5017721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_ipv6_recvhopopts && 5018721fffe3SKacheong Poon ip_cmpbuf(tcp->tcp_hopopts, tcp->tcp_hopoptslen, 5019721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_HOPOPTS), 5020721fffe3SKacheong Poon ipp->ipp_hopopts, ipp->ipp_hopoptslen)) { 5021721fffe3SKacheong Poon optlen += sizeof (struct T_opthdr) + ipp->ipp_hopoptslen; 5022721fffe3SKacheong Poon addflag.crb_ipv6_recvhopopts = 1; 5023721fffe3SKacheong Poon if (!ip_allocbuf((void **)&tcp->tcp_hopopts, 5024721fffe3SKacheong Poon &tcp->tcp_hopoptslen, (ipp->ipp_fields & IPPF_HOPOPTS), 5025721fffe3SKacheong Poon ipp->ipp_hopopts, ipp->ipp_hopoptslen)) 5026721fffe3SKacheong Poon return (mp); 5027721fffe3SKacheong Poon } 5028721fffe3SKacheong Poon /* If app asked for dst headers before routing headers ... */ 5029721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_ipv6_recvrthdrdstopts && 5030721fffe3SKacheong Poon ip_cmpbuf(tcp->tcp_rthdrdstopts, tcp->tcp_rthdrdstoptslen, 5031721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_RTHDRDSTOPTS), 5032721fffe3SKacheong Poon ipp->ipp_rthdrdstopts, ipp->ipp_rthdrdstoptslen)) { 5033721fffe3SKacheong Poon optlen += sizeof (struct T_opthdr) + 5034721fffe3SKacheong Poon ipp->ipp_rthdrdstoptslen; 5035721fffe3SKacheong Poon addflag.crb_ipv6_recvrthdrdstopts = 1; 5036721fffe3SKacheong Poon if (!ip_allocbuf((void **)&tcp->tcp_rthdrdstopts, 5037721fffe3SKacheong Poon &tcp->tcp_rthdrdstoptslen, 5038721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_RTHDRDSTOPTS), 5039721fffe3SKacheong Poon ipp->ipp_rthdrdstopts, ipp->ipp_rthdrdstoptslen)) 5040721fffe3SKacheong Poon return (mp); 5041721fffe3SKacheong Poon } 5042721fffe3SKacheong Poon /* If app asked for routing headers and it has changed ... */ 5043721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_ipv6_recvrthdr && 5044721fffe3SKacheong Poon ip_cmpbuf(tcp->tcp_rthdr, tcp->tcp_rthdrlen, 5045721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_RTHDR), 5046721fffe3SKacheong Poon ipp->ipp_rthdr, ipp->ipp_rthdrlen)) { 5047721fffe3SKacheong Poon optlen += sizeof (struct T_opthdr) + ipp->ipp_rthdrlen; 5048721fffe3SKacheong Poon addflag.crb_ipv6_recvrthdr = 1; 5049721fffe3SKacheong Poon if (!ip_allocbuf((void **)&tcp->tcp_rthdr, 5050721fffe3SKacheong Poon &tcp->tcp_rthdrlen, (ipp->ipp_fields & IPPF_RTHDR), 5051721fffe3SKacheong Poon ipp->ipp_rthdr, ipp->ipp_rthdrlen)) 5052721fffe3SKacheong Poon return (mp); 5053721fffe3SKacheong Poon } 5054721fffe3SKacheong Poon /* If app asked for dest headers and it has changed ... */ 5055721fffe3SKacheong Poon if ((connp->conn_recv_ancillary.crb_ipv6_recvdstopts || 5056721fffe3SKacheong Poon connp->conn_recv_ancillary.crb_old_ipv6_recvdstopts) && 5057721fffe3SKacheong Poon ip_cmpbuf(tcp->tcp_dstopts, tcp->tcp_dstoptslen, 5058721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_DSTOPTS), 5059721fffe3SKacheong Poon ipp->ipp_dstopts, ipp->ipp_dstoptslen)) { 5060721fffe3SKacheong Poon optlen += sizeof (struct T_opthdr) + ipp->ipp_dstoptslen; 5061721fffe3SKacheong Poon addflag.crb_ipv6_recvdstopts = 1; 5062721fffe3SKacheong Poon if (!ip_allocbuf((void **)&tcp->tcp_dstopts, 5063721fffe3SKacheong Poon &tcp->tcp_dstoptslen, (ipp->ipp_fields & IPPF_DSTOPTS), 5064721fffe3SKacheong Poon ipp->ipp_dstopts, ipp->ipp_dstoptslen)) 5065721fffe3SKacheong Poon return (mp); 5066721fffe3SKacheong Poon } 5067721fffe3SKacheong Poon 5068721fffe3SKacheong Poon if (optlen == 0) { 5069721fffe3SKacheong Poon /* Nothing to add */ 5070721fffe3SKacheong Poon return (mp); 5071721fffe3SKacheong Poon } 5072721fffe3SKacheong Poon mp1 = allocb(sizeof (struct T_optdata_ind) + optlen, BPRI_MED); 5073721fffe3SKacheong Poon if (mp1 == NULL) { 5074721fffe3SKacheong Poon /* 5075721fffe3SKacheong Poon * Defer sending ancillary data until the next TCP segment 5076721fffe3SKacheong Poon * arrives. 5077721fffe3SKacheong Poon */ 5078721fffe3SKacheong Poon return (mp); 5079721fffe3SKacheong Poon } 5080721fffe3SKacheong Poon mp1->b_cont = mp; 5081721fffe3SKacheong Poon mp = mp1; 5082721fffe3SKacheong Poon mp->b_wptr += sizeof (*todi) + optlen; 5083721fffe3SKacheong Poon mp->b_datap->db_type = M_PROTO; 5084721fffe3SKacheong Poon todi = (struct T_optdata_ind *)mp->b_rptr; 5085721fffe3SKacheong Poon todi->PRIM_type = T_OPTDATA_IND; 5086721fffe3SKacheong Poon todi->DATA_flag = 1; /* MORE data */ 5087721fffe3SKacheong Poon todi->OPT_length = optlen; 5088721fffe3SKacheong Poon todi->OPT_offset = sizeof (*todi); 5089721fffe3SKacheong Poon optptr = (uchar_t *)&todi[1]; 5090721fffe3SKacheong Poon /* 5091721fffe3SKacheong Poon * If app asked for pktinfo and the index has changed ... 5092721fffe3SKacheong Poon * Note that the local address never changes for the connection. 5093721fffe3SKacheong Poon */ 5094721fffe3SKacheong Poon if (addflag.crb_ip_recvpktinfo) { 5095721fffe3SKacheong Poon struct in6_pktinfo *pkti; 5096721fffe3SKacheong Poon uint_t ifindex; 5097721fffe3SKacheong Poon 5098721fffe3SKacheong Poon ifindex = ira->ira_ruifindex; 5099721fffe3SKacheong Poon toh = (struct T_opthdr *)optptr; 5100721fffe3SKacheong Poon toh->level = IPPROTO_IPV6; 5101721fffe3SKacheong Poon toh->name = IPV6_PKTINFO; 5102721fffe3SKacheong Poon toh->len = sizeof (*toh) + sizeof (*pkti); 5103721fffe3SKacheong Poon toh->status = 0; 5104721fffe3SKacheong Poon optptr += sizeof (*toh); 5105721fffe3SKacheong Poon pkti = (struct in6_pktinfo *)optptr; 5106721fffe3SKacheong Poon pkti->ipi6_addr = connp->conn_laddr_v6; 5107721fffe3SKacheong Poon pkti->ipi6_ifindex = ifindex; 5108721fffe3SKacheong Poon optptr += sizeof (*pkti); 5109721fffe3SKacheong Poon ASSERT(OK_32PTR(optptr)); 5110721fffe3SKacheong Poon /* Save as "last" value */ 5111721fffe3SKacheong Poon tcp->tcp_recvifindex = ifindex; 5112721fffe3SKacheong Poon } 5113721fffe3SKacheong Poon /* If app asked for hoplimit and it has changed ... */ 5114721fffe3SKacheong Poon if (addflag.crb_ipv6_recvhoplimit) { 5115721fffe3SKacheong Poon toh = (struct T_opthdr *)optptr; 5116721fffe3SKacheong Poon toh->level = IPPROTO_IPV6; 5117721fffe3SKacheong Poon toh->name = IPV6_HOPLIMIT; 5118721fffe3SKacheong Poon toh->len = sizeof (*toh) + sizeof (uint_t); 5119721fffe3SKacheong Poon toh->status = 0; 5120721fffe3SKacheong Poon optptr += sizeof (*toh); 5121721fffe3SKacheong Poon *(uint_t *)optptr = ipp->ipp_hoplimit; 5122721fffe3SKacheong Poon optptr += sizeof (uint_t); 5123721fffe3SKacheong Poon ASSERT(OK_32PTR(optptr)); 5124721fffe3SKacheong Poon /* Save as "last" value */ 5125721fffe3SKacheong Poon tcp->tcp_recvhops = ipp->ipp_hoplimit; 5126721fffe3SKacheong Poon } 5127721fffe3SKacheong Poon /* If app asked for tclass and it has changed ... */ 5128721fffe3SKacheong Poon if (addflag.crb_ipv6_recvtclass) { 5129721fffe3SKacheong Poon toh = (struct T_opthdr *)optptr; 5130721fffe3SKacheong Poon toh->level = IPPROTO_IPV6; 5131721fffe3SKacheong Poon toh->name = IPV6_TCLASS; 5132721fffe3SKacheong Poon toh->len = sizeof (*toh) + sizeof (uint_t); 5133721fffe3SKacheong Poon toh->status = 0; 5134721fffe3SKacheong Poon optptr += sizeof (*toh); 5135721fffe3SKacheong Poon *(uint_t *)optptr = ipp->ipp_tclass; 5136721fffe3SKacheong Poon optptr += sizeof (uint_t); 5137721fffe3SKacheong Poon ASSERT(OK_32PTR(optptr)); 5138721fffe3SKacheong Poon /* Save as "last" value */ 5139721fffe3SKacheong Poon tcp->tcp_recvtclass = ipp->ipp_tclass; 5140721fffe3SKacheong Poon } 5141721fffe3SKacheong Poon if (addflag.crb_ipv6_recvhopopts) { 5142721fffe3SKacheong Poon toh = (struct T_opthdr *)optptr; 5143721fffe3SKacheong Poon toh->level = IPPROTO_IPV6; 5144721fffe3SKacheong Poon toh->name = IPV6_HOPOPTS; 5145721fffe3SKacheong Poon toh->len = sizeof (*toh) + ipp->ipp_hopoptslen; 5146721fffe3SKacheong Poon toh->status = 0; 5147721fffe3SKacheong Poon optptr += sizeof (*toh); 5148721fffe3SKacheong Poon bcopy((uchar_t *)ipp->ipp_hopopts, optptr, ipp->ipp_hopoptslen); 5149721fffe3SKacheong Poon optptr += ipp->ipp_hopoptslen; 5150721fffe3SKacheong Poon ASSERT(OK_32PTR(optptr)); 5151721fffe3SKacheong Poon /* Save as last value */ 5152721fffe3SKacheong Poon ip_savebuf((void **)&tcp->tcp_hopopts, &tcp->tcp_hopoptslen, 5153721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_HOPOPTS), 5154721fffe3SKacheong Poon ipp->ipp_hopopts, ipp->ipp_hopoptslen); 5155721fffe3SKacheong Poon } 5156721fffe3SKacheong Poon if (addflag.crb_ipv6_recvrthdrdstopts) { 5157721fffe3SKacheong Poon toh = (struct T_opthdr *)optptr; 5158721fffe3SKacheong Poon toh->level = IPPROTO_IPV6; 5159721fffe3SKacheong Poon toh->name = IPV6_RTHDRDSTOPTS; 5160721fffe3SKacheong Poon toh->len = sizeof (*toh) + ipp->ipp_rthdrdstoptslen; 5161721fffe3SKacheong Poon toh->status = 0; 5162721fffe3SKacheong Poon optptr += sizeof (*toh); 5163721fffe3SKacheong Poon bcopy(ipp->ipp_rthdrdstopts, optptr, ipp->ipp_rthdrdstoptslen); 5164721fffe3SKacheong Poon optptr += ipp->ipp_rthdrdstoptslen; 5165721fffe3SKacheong Poon ASSERT(OK_32PTR(optptr)); 5166721fffe3SKacheong Poon /* Save as last value */ 5167721fffe3SKacheong Poon ip_savebuf((void **)&tcp->tcp_rthdrdstopts, 5168721fffe3SKacheong Poon &tcp->tcp_rthdrdstoptslen, 5169721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_RTHDRDSTOPTS), 5170721fffe3SKacheong Poon ipp->ipp_rthdrdstopts, ipp->ipp_rthdrdstoptslen); 5171721fffe3SKacheong Poon } 5172721fffe3SKacheong Poon if (addflag.crb_ipv6_recvrthdr) { 5173721fffe3SKacheong Poon toh = (struct T_opthdr *)optptr; 5174721fffe3SKacheong Poon toh->level = IPPROTO_IPV6; 5175721fffe3SKacheong Poon toh->name = IPV6_RTHDR; 5176721fffe3SKacheong Poon toh->len = sizeof (*toh) + ipp->ipp_rthdrlen; 5177721fffe3SKacheong Poon toh->status = 0; 5178721fffe3SKacheong Poon optptr += sizeof (*toh); 5179721fffe3SKacheong Poon bcopy(ipp->ipp_rthdr, optptr, ipp->ipp_rthdrlen); 5180721fffe3SKacheong Poon optptr += ipp->ipp_rthdrlen; 5181721fffe3SKacheong Poon ASSERT(OK_32PTR(optptr)); 5182721fffe3SKacheong Poon /* Save as last value */ 5183721fffe3SKacheong Poon ip_savebuf((void **)&tcp->tcp_rthdr, &tcp->tcp_rthdrlen, 5184721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_RTHDR), 5185721fffe3SKacheong Poon ipp->ipp_rthdr, ipp->ipp_rthdrlen); 5186721fffe3SKacheong Poon } 5187721fffe3SKacheong Poon if (addflag.crb_ipv6_recvdstopts) { 5188721fffe3SKacheong Poon toh = (struct T_opthdr *)optptr; 5189721fffe3SKacheong Poon toh->level = IPPROTO_IPV6; 5190721fffe3SKacheong Poon toh->name = IPV6_DSTOPTS; 5191721fffe3SKacheong Poon toh->len = sizeof (*toh) + ipp->ipp_dstoptslen; 5192721fffe3SKacheong Poon toh->status = 0; 5193721fffe3SKacheong Poon optptr += sizeof (*toh); 5194721fffe3SKacheong Poon bcopy(ipp->ipp_dstopts, optptr, ipp->ipp_dstoptslen); 5195721fffe3SKacheong Poon optptr += ipp->ipp_dstoptslen; 5196721fffe3SKacheong Poon ASSERT(OK_32PTR(optptr)); 5197721fffe3SKacheong Poon /* Save as last value */ 5198721fffe3SKacheong Poon ip_savebuf((void **)&tcp->tcp_dstopts, &tcp->tcp_dstoptslen, 5199721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_DSTOPTS), 5200721fffe3SKacheong Poon ipp->ipp_dstopts, ipp->ipp_dstoptslen); 5201721fffe3SKacheong Poon } 5202721fffe3SKacheong Poon ASSERT(optptr == mp->b_wptr); 5203721fffe3SKacheong Poon return (mp); 5204721fffe3SKacheong Poon } 5205721fffe3SKacheong Poon 5206721fffe3SKacheong Poon /* The minimum of smoothed mean deviation in RTO calculation. */ 5207721fffe3SKacheong Poon #define TCP_SD_MIN 400 5208721fffe3SKacheong Poon 5209721fffe3SKacheong Poon /* 5210721fffe3SKacheong Poon * Set RTO for this connection. The formula is from Jacobson and Karels' 5211721fffe3SKacheong Poon * "Congestion Avoidance and Control" in SIGCOMM '88. The variable names 5212721fffe3SKacheong Poon * are the same as those in Appendix A.2 of that paper. 5213721fffe3SKacheong Poon * 5214721fffe3SKacheong Poon * m = new measurement 5215721fffe3SKacheong Poon * sa = smoothed RTT average (8 * average estimates). 5216721fffe3SKacheong Poon * sv = smoothed mean deviation (mdev) of RTT (4 * deviation estimates). 5217721fffe3SKacheong Poon */ 5218721fffe3SKacheong Poon static void 5219721fffe3SKacheong Poon tcp_set_rto(tcp_t *tcp, clock_t rtt) 5220721fffe3SKacheong Poon { 5221721fffe3SKacheong Poon long m = TICK_TO_MSEC(rtt); 5222721fffe3SKacheong Poon clock_t sa = tcp->tcp_rtt_sa; 5223721fffe3SKacheong Poon clock_t sv = tcp->tcp_rtt_sd; 5224721fffe3SKacheong Poon clock_t rto; 5225721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps; 5226721fffe3SKacheong Poon 5227721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpRttUpdate); 5228721fffe3SKacheong Poon tcp->tcp_rtt_update++; 5229721fffe3SKacheong Poon 5230721fffe3SKacheong Poon /* tcp_rtt_sa is not 0 means this is a new sample. */ 5231721fffe3SKacheong Poon if (sa != 0) { 5232721fffe3SKacheong Poon /* 5233721fffe3SKacheong Poon * Update average estimator: 5234721fffe3SKacheong Poon * new rtt = 7/8 old rtt + 1/8 Error 5235721fffe3SKacheong Poon */ 5236721fffe3SKacheong Poon 5237721fffe3SKacheong Poon /* m is now Error in estimate. */ 5238721fffe3SKacheong Poon m -= sa >> 3; 5239721fffe3SKacheong Poon if ((sa += m) <= 0) { 5240721fffe3SKacheong Poon /* 5241721fffe3SKacheong Poon * Don't allow the smoothed average to be negative. 5242721fffe3SKacheong Poon * We use 0 to denote reinitialization of the 5243721fffe3SKacheong Poon * variables. 5244721fffe3SKacheong Poon */ 5245721fffe3SKacheong Poon sa = 1; 5246721fffe3SKacheong Poon } 5247721fffe3SKacheong Poon 5248721fffe3SKacheong Poon /* 5249721fffe3SKacheong Poon * Update deviation estimator: 5250721fffe3SKacheong Poon * new mdev = 3/4 old mdev + 1/4 (abs(Error) - old mdev) 5251721fffe3SKacheong Poon */ 5252721fffe3SKacheong Poon if (m < 0) 5253721fffe3SKacheong Poon m = -m; 5254721fffe3SKacheong Poon m -= sv >> 2; 5255721fffe3SKacheong Poon sv += m; 5256721fffe3SKacheong Poon } else { 5257721fffe3SKacheong Poon /* 5258721fffe3SKacheong Poon * This follows BSD's implementation. So the reinitialized 5259721fffe3SKacheong Poon * RTO is 3 * m. We cannot go less than 2 because if the 5260721fffe3SKacheong Poon * link is bandwidth dominated, doubling the window size 5261721fffe3SKacheong Poon * during slow start means doubling the RTT. We want to be 5262721fffe3SKacheong Poon * more conservative when we reinitialize our estimates. 3 5263721fffe3SKacheong Poon * is just a convenient number. 5264721fffe3SKacheong Poon */ 5265721fffe3SKacheong Poon sa = m << 3; 5266721fffe3SKacheong Poon sv = m << 1; 5267721fffe3SKacheong Poon } 5268721fffe3SKacheong Poon if (sv < TCP_SD_MIN) { 5269721fffe3SKacheong Poon /* 5270721fffe3SKacheong Poon * We do not know that if sa captures the delay ACK 5271721fffe3SKacheong Poon * effect as in a long train of segments, a receiver 5272721fffe3SKacheong Poon * does not delay its ACKs. So set the minimum of sv 5273721fffe3SKacheong Poon * to be TCP_SD_MIN, which is default to 400 ms, twice 5274721fffe3SKacheong Poon * of BSD DATO. That means the minimum of mean 5275721fffe3SKacheong Poon * deviation is 100 ms. 5276721fffe3SKacheong Poon * 5277721fffe3SKacheong Poon */ 5278721fffe3SKacheong Poon sv = TCP_SD_MIN; 5279721fffe3SKacheong Poon } 5280721fffe3SKacheong Poon tcp->tcp_rtt_sa = sa; 5281721fffe3SKacheong Poon tcp->tcp_rtt_sd = sv; 5282721fffe3SKacheong Poon /* 5283721fffe3SKacheong Poon * RTO = average estimates (sa / 8) + 4 * deviation estimates (sv) 5284721fffe3SKacheong Poon * 5285721fffe3SKacheong Poon * Add tcp_rexmit_interval extra in case of extreme environment 5286721fffe3SKacheong Poon * where the algorithm fails to work. The default value of 5287721fffe3SKacheong Poon * tcp_rexmit_interval_extra should be 0. 5288721fffe3SKacheong Poon * 5289721fffe3SKacheong Poon * As we use a finer grained clock than BSD and update 5290721fffe3SKacheong Poon * RTO for every ACKs, add in another .25 of RTT to the 5291721fffe3SKacheong Poon * deviation of RTO to accomodate burstiness of 1/4 of 5292721fffe3SKacheong Poon * window size. 5293721fffe3SKacheong Poon */ 5294721fffe3SKacheong Poon rto = (sa >> 3) + sv + tcps->tcps_rexmit_interval_extra + (sa >> 5); 5295721fffe3SKacheong Poon 5296707e74bcSKacheong Poon TCP_SET_RTO(tcp, rto); 5297721fffe3SKacheong Poon 5298721fffe3SKacheong Poon /* Now, we can reset tcp_timer_backoff to use the new RTO... */ 5299721fffe3SKacheong Poon tcp->tcp_timer_backoff = 0; 5300721fffe3SKacheong Poon } 5301721fffe3SKacheong Poon 5302721fffe3SKacheong Poon /* 5303721fffe3SKacheong Poon * On a labeled system we have some protocols above TCP, such as RPC, which 5304721fffe3SKacheong Poon * appear to assume that every mblk in a chain has a db_credp. 5305721fffe3SKacheong Poon */ 5306721fffe3SKacheong Poon static void 5307721fffe3SKacheong Poon tcp_setcred_data(mblk_t *mp, ip_recv_attr_t *ira) 5308721fffe3SKacheong Poon { 5309721fffe3SKacheong Poon ASSERT(is_system_labeled()); 5310721fffe3SKacheong Poon ASSERT(ira->ira_cred != NULL); 5311721fffe3SKacheong Poon 5312721fffe3SKacheong Poon while (mp != NULL) { 5313721fffe3SKacheong Poon mblk_setcred(mp, ira->ira_cred, NOPID); 5314721fffe3SKacheong Poon mp = mp->b_cont; 5315721fffe3SKacheong Poon } 5316721fffe3SKacheong Poon } 5317721fffe3SKacheong Poon 5318721fffe3SKacheong Poon uint_t 5319721fffe3SKacheong Poon tcp_rwnd_reopen(tcp_t *tcp) 5320721fffe3SKacheong Poon { 5321721fffe3SKacheong Poon uint_t ret = 0; 5322721fffe3SKacheong Poon uint_t thwin; 5323721fffe3SKacheong Poon conn_t *connp = tcp->tcp_connp; 5324721fffe3SKacheong Poon 5325721fffe3SKacheong Poon /* Learn the latest rwnd information that we sent to the other side. */ 5326721fffe3SKacheong Poon thwin = ((uint_t)ntohs(tcp->tcp_tcpha->tha_win)) 5327721fffe3SKacheong Poon << tcp->tcp_rcv_ws; 5328721fffe3SKacheong Poon /* This is peer's calculated send window (our receive window). */ 5329721fffe3SKacheong Poon thwin -= tcp->tcp_rnxt - tcp->tcp_rack; 5330721fffe3SKacheong Poon /* 5331721fffe3SKacheong Poon * Increase the receive window to max. But we need to do receiver 5332721fffe3SKacheong Poon * SWS avoidance. This means that we need to check the increase of 5333721fffe3SKacheong Poon * of receive window is at least 1 MSS. 5334721fffe3SKacheong Poon */ 5335721fffe3SKacheong Poon if (connp->conn_rcvbuf - thwin >= tcp->tcp_mss) { 5336721fffe3SKacheong Poon /* 5337721fffe3SKacheong Poon * If the window that the other side knows is less than max 5338721fffe3SKacheong Poon * deferred acks segments, send an update immediately. 5339721fffe3SKacheong Poon */ 5340721fffe3SKacheong Poon if (thwin < tcp->tcp_rack_cur_max * tcp->tcp_mss) { 5341721fffe3SKacheong Poon TCPS_BUMP_MIB(tcp->tcp_tcps, tcpOutWinUpdate); 5342721fffe3SKacheong Poon ret = TH_ACK_NEEDED; 5343721fffe3SKacheong Poon } 5344721fffe3SKacheong Poon tcp->tcp_rwnd = connp->conn_rcvbuf; 5345721fffe3SKacheong Poon } 5346721fffe3SKacheong Poon return (ret); 5347721fffe3SKacheong Poon } 5348721fffe3SKacheong Poon 5349721fffe3SKacheong Poon /* 5350721fffe3SKacheong Poon * Handle a packet that has been reclassified by TCP. 5351721fffe3SKacheong Poon * This function drops the ref on connp that the caller had. 5352721fffe3SKacheong Poon */ 5353721fffe3SKacheong Poon void 5354721fffe3SKacheong Poon tcp_reinput(conn_t *connp, mblk_t *mp, ip_recv_attr_t *ira, ip_stack_t *ipst) 5355721fffe3SKacheong Poon { 5356721fffe3SKacheong Poon ipsec_stack_t *ipss = ipst->ips_netstack->netstack_ipsec; 5357721fffe3SKacheong Poon 5358721fffe3SKacheong Poon if (connp->conn_incoming_ifindex != 0 && 5359721fffe3SKacheong Poon connp->conn_incoming_ifindex != ira->ira_ruifindex) { 5360721fffe3SKacheong Poon freemsg(mp); 5361721fffe3SKacheong Poon CONN_DEC_REF(connp); 5362721fffe3SKacheong Poon return; 5363721fffe3SKacheong Poon } 5364721fffe3SKacheong Poon 5365721fffe3SKacheong Poon if (CONN_INBOUND_POLICY_PRESENT_V6(connp, ipss) || 5366721fffe3SKacheong Poon (ira->ira_flags & IRAF_IPSEC_SECURE)) { 5367721fffe3SKacheong Poon ip6_t *ip6h; 5368721fffe3SKacheong Poon ipha_t *ipha; 5369721fffe3SKacheong Poon 5370721fffe3SKacheong Poon if (ira->ira_flags & IRAF_IS_IPV4) { 5371721fffe3SKacheong Poon ipha = (ipha_t *)mp->b_rptr; 5372721fffe3SKacheong Poon ip6h = NULL; 5373721fffe3SKacheong Poon } else { 5374721fffe3SKacheong Poon ipha = NULL; 5375721fffe3SKacheong Poon ip6h = (ip6_t *)mp->b_rptr; 5376721fffe3SKacheong Poon } 5377721fffe3SKacheong Poon mp = ipsec_check_inbound_policy(mp, connp, ipha, ip6h, ira); 5378721fffe3SKacheong Poon if (mp == NULL) { 5379721fffe3SKacheong Poon BUMP_MIB(&ipst->ips_ip_mib, ipIfStatsInDiscards); 5380721fffe3SKacheong Poon /* Note that mp is NULL */ 5381721fffe3SKacheong Poon ip_drop_input("ipIfStatsInDiscards", mp, NULL); 5382721fffe3SKacheong Poon CONN_DEC_REF(connp); 5383721fffe3SKacheong Poon return; 5384721fffe3SKacheong Poon } 5385721fffe3SKacheong Poon } 5386721fffe3SKacheong Poon 5387721fffe3SKacheong Poon if (IPCL_IS_TCP(connp)) { 5388721fffe3SKacheong Poon /* 5389721fffe3SKacheong Poon * do not drain, certain use cases can blow 5390721fffe3SKacheong Poon * the stack 5391721fffe3SKacheong Poon */ 5392721fffe3SKacheong Poon SQUEUE_ENTER_ONE(connp->conn_sqp, mp, 5393721fffe3SKacheong Poon connp->conn_recv, connp, ira, 5394721fffe3SKacheong Poon SQ_NODRAIN, SQTAG_IP_TCP_INPUT); 5395721fffe3SKacheong Poon } else { 5396721fffe3SKacheong Poon /* Not TCP; must be SOCK_RAW, IPPROTO_TCP */ 5397721fffe3SKacheong Poon (connp->conn_recv)(connp, mp, NULL, 5398721fffe3SKacheong Poon ira); 5399721fffe3SKacheong Poon CONN_DEC_REF(connp); 5400721fffe3SKacheong Poon } 5401721fffe3SKacheong Poon 5402721fffe3SKacheong Poon } 5403721fffe3SKacheong Poon 5404721fffe3SKacheong Poon /* ARGSUSED */ 5405721fffe3SKacheong Poon static void 5406721fffe3SKacheong Poon tcp_rsrv_input(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *dummy) 5407721fffe3SKacheong Poon { 5408721fffe3SKacheong Poon conn_t *connp = (conn_t *)arg; 5409721fffe3SKacheong Poon tcp_t *tcp = connp->conn_tcp; 5410721fffe3SKacheong Poon queue_t *q = connp->conn_rq; 5411721fffe3SKacheong Poon 5412721fffe3SKacheong Poon ASSERT(!IPCL_IS_NONSTR(connp)); 5413721fffe3SKacheong Poon mutex_enter(&tcp->tcp_rsrv_mp_lock); 5414721fffe3SKacheong Poon tcp->tcp_rsrv_mp = mp; 5415721fffe3SKacheong Poon mutex_exit(&tcp->tcp_rsrv_mp_lock); 5416721fffe3SKacheong Poon 5417721fffe3SKacheong Poon if (TCP_IS_DETACHED(tcp) || q == NULL) { 5418721fffe3SKacheong Poon return; 5419721fffe3SKacheong Poon } 5420721fffe3SKacheong Poon 5421721fffe3SKacheong Poon if (tcp->tcp_fused) { 5422721fffe3SKacheong Poon tcp_fuse_backenable(tcp); 5423721fffe3SKacheong Poon return; 5424721fffe3SKacheong Poon } 5425721fffe3SKacheong Poon 5426721fffe3SKacheong Poon if (canputnext(q)) { 5427721fffe3SKacheong Poon /* Not flow-controlled, open rwnd */ 5428721fffe3SKacheong Poon tcp->tcp_rwnd = connp->conn_rcvbuf; 5429721fffe3SKacheong Poon 5430721fffe3SKacheong Poon /* 5431721fffe3SKacheong Poon * Send back a window update immediately if TCP is above 5432721fffe3SKacheong Poon * ESTABLISHED state and the increase of the rcv window 5433721fffe3SKacheong Poon * that the other side knows is at least 1 MSS after flow 5434721fffe3SKacheong Poon * control is lifted. 5435721fffe3SKacheong Poon */ 5436721fffe3SKacheong Poon if (tcp->tcp_state >= TCPS_ESTABLISHED && 5437721fffe3SKacheong Poon tcp_rwnd_reopen(tcp) == TH_ACK_NEEDED) { 5438721fffe3SKacheong Poon tcp_xmit_ctl(NULL, tcp, 5439721fffe3SKacheong Poon (tcp->tcp_swnd == 0) ? tcp->tcp_suna : 5440721fffe3SKacheong Poon tcp->tcp_snxt, tcp->tcp_rnxt, TH_ACK); 5441721fffe3SKacheong Poon } 5442721fffe3SKacheong Poon } 5443721fffe3SKacheong Poon } 5444721fffe3SKacheong Poon 5445721fffe3SKacheong Poon /* 5446721fffe3SKacheong Poon * The read side service routine is called mostly when we get back-enabled as a 5447721fffe3SKacheong Poon * result of flow control relief. Since we don't actually queue anything in 5448721fffe3SKacheong Poon * TCP, we have no data to send out of here. What we do is clear the receive 5449721fffe3SKacheong Poon * window, and send out a window update. 5450721fffe3SKacheong Poon */ 5451721fffe3SKacheong Poon void 5452721fffe3SKacheong Poon tcp_rsrv(queue_t *q) 5453721fffe3SKacheong Poon { 5454721fffe3SKacheong Poon conn_t *connp = Q_TO_CONN(q); 5455721fffe3SKacheong Poon tcp_t *tcp = connp->conn_tcp; 5456721fffe3SKacheong Poon mblk_t *mp; 5457721fffe3SKacheong Poon 5458721fffe3SKacheong Poon /* No code does a putq on the read side */ 5459721fffe3SKacheong Poon ASSERT(q->q_first == NULL); 5460721fffe3SKacheong Poon 5461721fffe3SKacheong Poon /* 5462721fffe3SKacheong Poon * If tcp->tcp_rsrv_mp == NULL, it means that tcp_rsrv() has already 5463721fffe3SKacheong Poon * been run. So just return. 5464721fffe3SKacheong Poon */ 5465721fffe3SKacheong Poon mutex_enter(&tcp->tcp_rsrv_mp_lock); 5466721fffe3SKacheong Poon if ((mp = tcp->tcp_rsrv_mp) == NULL) { 5467721fffe3SKacheong Poon mutex_exit(&tcp->tcp_rsrv_mp_lock); 5468721fffe3SKacheong Poon return; 5469721fffe3SKacheong Poon } 5470721fffe3SKacheong Poon tcp->tcp_rsrv_mp = NULL; 5471721fffe3SKacheong Poon mutex_exit(&tcp->tcp_rsrv_mp_lock); 5472721fffe3SKacheong Poon 5473721fffe3SKacheong Poon CONN_INC_REF(connp); 5474721fffe3SKacheong Poon SQUEUE_ENTER_ONE(connp->conn_sqp, mp, tcp_rsrv_input, connp, 5475721fffe3SKacheong Poon NULL, SQ_PROCESS, SQTAG_TCP_RSRV); 5476721fffe3SKacheong Poon } 5477721fffe3SKacheong Poon 5478721fffe3SKacheong Poon /* At minimum we need 8 bytes in the TCP header for the lookup */ 5479721fffe3SKacheong Poon #define ICMP_MIN_TCP_HDR 8 5480721fffe3SKacheong Poon 5481721fffe3SKacheong Poon /* 5482721fffe3SKacheong Poon * tcp_icmp_input is called as conn_recvicmp to process ICMP error messages 5483721fffe3SKacheong Poon * passed up by IP. The message is always received on the correct tcp_t. 5484721fffe3SKacheong Poon * Assumes that IP has pulled up everything up to and including the ICMP header. 5485721fffe3SKacheong Poon */ 5486721fffe3SKacheong Poon /* ARGSUSED2 */ 5487721fffe3SKacheong Poon void 5488721fffe3SKacheong Poon tcp_icmp_input(void *arg1, mblk_t *mp, void *arg2, ip_recv_attr_t *ira) 5489721fffe3SKacheong Poon { 5490721fffe3SKacheong Poon conn_t *connp = (conn_t *)arg1; 5491721fffe3SKacheong Poon icmph_t *icmph; 5492721fffe3SKacheong Poon ipha_t *ipha; 5493721fffe3SKacheong Poon int iph_hdr_length; 5494721fffe3SKacheong Poon tcpha_t *tcpha; 5495721fffe3SKacheong Poon uint32_t seg_seq; 5496721fffe3SKacheong Poon tcp_t *tcp = connp->conn_tcp; 5497721fffe3SKacheong Poon 5498721fffe3SKacheong Poon /* Assume IP provides aligned packets */ 5499721fffe3SKacheong Poon ASSERT(OK_32PTR(mp->b_rptr)); 5500721fffe3SKacheong Poon ASSERT((MBLKL(mp) >= sizeof (ipha_t))); 5501721fffe3SKacheong Poon 5502721fffe3SKacheong Poon /* 55038b21eaf3SRobert Mustacchi * It's possible we have a closed, but not yet destroyed, TCP 55048b21eaf3SRobert Mustacchi * connection. Several fields (e.g. conn_ixa->ixa_ire) are invalid 55058b21eaf3SRobert Mustacchi * in the closed state, so don't take any chances and drop the packet. 55068b21eaf3SRobert Mustacchi */ 55078b21eaf3SRobert Mustacchi if (tcp->tcp_state == TCPS_CLOSED) { 55088b21eaf3SRobert Mustacchi freemsg(mp); 55098b21eaf3SRobert Mustacchi return; 55108b21eaf3SRobert Mustacchi } 55118b21eaf3SRobert Mustacchi 55128b21eaf3SRobert Mustacchi /* 5513721fffe3SKacheong Poon * Verify IP version. Anything other than IPv4 or IPv6 packet is sent 5514721fffe3SKacheong Poon * upstream. ICMPv6 is handled in tcp_icmp_error_ipv6. 5515721fffe3SKacheong Poon */ 5516721fffe3SKacheong Poon if (!(ira->ira_flags & IRAF_IS_IPV4)) { 5517721fffe3SKacheong Poon tcp_icmp_error_ipv6(tcp, mp, ira); 5518721fffe3SKacheong Poon return; 5519721fffe3SKacheong Poon } 5520721fffe3SKacheong Poon 5521721fffe3SKacheong Poon /* Skip past the outer IP and ICMP headers */ 5522721fffe3SKacheong Poon iph_hdr_length = ira->ira_ip_hdr_length; 5523721fffe3SKacheong Poon icmph = (icmph_t *)&mp->b_rptr[iph_hdr_length]; 5524721fffe3SKacheong Poon /* 5525721fffe3SKacheong Poon * If we don't have the correct outer IP header length 5526721fffe3SKacheong Poon * or if we don't have a complete inner IP header 5527721fffe3SKacheong Poon * drop it. 5528721fffe3SKacheong Poon */ 5529721fffe3SKacheong Poon if (iph_hdr_length < sizeof (ipha_t) || 5530721fffe3SKacheong Poon (ipha_t *)&icmph[1] + 1 > (ipha_t *)mp->b_wptr) { 5531721fffe3SKacheong Poon noticmpv4: 5532721fffe3SKacheong Poon freemsg(mp); 5533721fffe3SKacheong Poon return; 5534721fffe3SKacheong Poon } 5535721fffe3SKacheong Poon ipha = (ipha_t *)&icmph[1]; 5536721fffe3SKacheong Poon 5537721fffe3SKacheong Poon /* Skip past the inner IP and find the ULP header */ 5538721fffe3SKacheong Poon iph_hdr_length = IPH_HDR_LENGTH(ipha); 5539721fffe3SKacheong Poon tcpha = (tcpha_t *)((char *)ipha + iph_hdr_length); 5540721fffe3SKacheong Poon /* 5541721fffe3SKacheong Poon * If we don't have the correct inner IP header length or if the ULP 5542721fffe3SKacheong Poon * is not IPPROTO_TCP or if we don't have at least ICMP_MIN_TCP_HDR 5543721fffe3SKacheong Poon * bytes of TCP header, drop it. 5544721fffe3SKacheong Poon */ 5545721fffe3SKacheong Poon if (iph_hdr_length < sizeof (ipha_t) || 5546721fffe3SKacheong Poon ipha->ipha_protocol != IPPROTO_TCP || 5547721fffe3SKacheong Poon (uchar_t *)tcpha + ICMP_MIN_TCP_HDR > mp->b_wptr) { 5548721fffe3SKacheong Poon goto noticmpv4; 5549721fffe3SKacheong Poon } 5550721fffe3SKacheong Poon 5551721fffe3SKacheong Poon seg_seq = ntohl(tcpha->tha_seq); 5552721fffe3SKacheong Poon switch (icmph->icmph_type) { 5553721fffe3SKacheong Poon case ICMP_DEST_UNREACHABLE: 5554721fffe3SKacheong Poon switch (icmph->icmph_code) { 5555721fffe3SKacheong Poon case ICMP_FRAGMENTATION_NEEDED: 5556721fffe3SKacheong Poon /* 5557721fffe3SKacheong Poon * Update Path MTU, then try to send something out. 5558721fffe3SKacheong Poon */ 5559721fffe3SKacheong Poon tcp_update_pmtu(tcp, B_TRUE); 5560721fffe3SKacheong Poon tcp_rexmit_after_error(tcp); 5561721fffe3SKacheong Poon break; 5562721fffe3SKacheong Poon case ICMP_PORT_UNREACHABLE: 5563721fffe3SKacheong Poon case ICMP_PROTOCOL_UNREACHABLE: 5564721fffe3SKacheong Poon switch (tcp->tcp_state) { 5565721fffe3SKacheong Poon case TCPS_SYN_SENT: 5566721fffe3SKacheong Poon case TCPS_SYN_RCVD: 5567721fffe3SKacheong Poon /* 5568721fffe3SKacheong Poon * ICMP can snipe away incipient 5569721fffe3SKacheong Poon * TCP connections as long as 5570721fffe3SKacheong Poon * seq number is same as initial 5571721fffe3SKacheong Poon * send seq number. 5572721fffe3SKacheong Poon */ 5573721fffe3SKacheong Poon if (seg_seq == tcp->tcp_iss) { 5574721fffe3SKacheong Poon (void) tcp_clean_death(tcp, 5575721fffe3SKacheong Poon ECONNREFUSED); 5576721fffe3SKacheong Poon } 5577721fffe3SKacheong Poon break; 5578721fffe3SKacheong Poon } 5579721fffe3SKacheong Poon break; 5580721fffe3SKacheong Poon case ICMP_HOST_UNREACHABLE: 5581721fffe3SKacheong Poon case ICMP_NET_UNREACHABLE: 5582721fffe3SKacheong Poon /* Record the error in case we finally time out. */ 5583721fffe3SKacheong Poon if (icmph->icmph_code == ICMP_HOST_UNREACHABLE) 5584721fffe3SKacheong Poon tcp->tcp_client_errno = EHOSTUNREACH; 5585721fffe3SKacheong Poon else 5586721fffe3SKacheong Poon tcp->tcp_client_errno = ENETUNREACH; 5587721fffe3SKacheong Poon if (tcp->tcp_state == TCPS_SYN_RCVD) { 5588721fffe3SKacheong Poon if (tcp->tcp_listener != NULL && 5589721fffe3SKacheong Poon tcp->tcp_listener->tcp_syn_defense) { 5590721fffe3SKacheong Poon /* 5591721fffe3SKacheong Poon * Ditch the half-open connection if we 5592721fffe3SKacheong Poon * suspect a SYN attack is under way. 5593721fffe3SKacheong Poon */ 5594721fffe3SKacheong Poon (void) tcp_clean_death(tcp, 5595721fffe3SKacheong Poon tcp->tcp_client_errno); 5596721fffe3SKacheong Poon } 5597721fffe3SKacheong Poon } 5598721fffe3SKacheong Poon break; 5599721fffe3SKacheong Poon default: 5600721fffe3SKacheong Poon break; 5601721fffe3SKacheong Poon } 5602721fffe3SKacheong Poon break; 5603721fffe3SKacheong Poon case ICMP_SOURCE_QUENCH: { 5604721fffe3SKacheong Poon /* 5605721fffe3SKacheong Poon * use a global boolean to control 5606721fffe3SKacheong Poon * whether TCP should respond to ICMP_SOURCE_QUENCH. 5607721fffe3SKacheong Poon * The default is false. 5608721fffe3SKacheong Poon */ 5609721fffe3SKacheong Poon if (tcp_icmp_source_quench) { 5610721fffe3SKacheong Poon /* 5611721fffe3SKacheong Poon * Reduce the sending rate as if we got a 5612721fffe3SKacheong Poon * retransmit timeout 5613721fffe3SKacheong Poon */ 5614721fffe3SKacheong Poon uint32_t npkt; 5615721fffe3SKacheong Poon 5616721fffe3SKacheong Poon npkt = ((tcp->tcp_snxt - tcp->tcp_suna) >> 1) / 5617721fffe3SKacheong Poon tcp->tcp_mss; 5618721fffe3SKacheong Poon tcp->tcp_cwnd_ssthresh = MAX(npkt, 2) * tcp->tcp_mss; 5619721fffe3SKacheong Poon tcp->tcp_cwnd = tcp->tcp_mss; 5620721fffe3SKacheong Poon tcp->tcp_cwnd_cnt = 0; 5621721fffe3SKacheong Poon } 5622721fffe3SKacheong Poon break; 5623721fffe3SKacheong Poon } 5624721fffe3SKacheong Poon } 5625721fffe3SKacheong Poon freemsg(mp); 5626721fffe3SKacheong Poon } 5627721fffe3SKacheong Poon 5628721fffe3SKacheong Poon /* 5629721fffe3SKacheong Poon * tcp_icmp_error_ipv6 is called from tcp_icmp_input to process ICMPv6 5630721fffe3SKacheong Poon * error messages passed up by IP. 5631721fffe3SKacheong Poon * Assumes that IP has pulled up all the extension headers as well 5632721fffe3SKacheong Poon * as the ICMPv6 header. 5633721fffe3SKacheong Poon */ 5634721fffe3SKacheong Poon static void 5635721fffe3SKacheong Poon tcp_icmp_error_ipv6(tcp_t *tcp, mblk_t *mp, ip_recv_attr_t *ira) 5636721fffe3SKacheong Poon { 5637721fffe3SKacheong Poon icmp6_t *icmp6; 5638721fffe3SKacheong Poon ip6_t *ip6h; 5639721fffe3SKacheong Poon uint16_t iph_hdr_length = ira->ira_ip_hdr_length; 5640721fffe3SKacheong Poon tcpha_t *tcpha; 5641721fffe3SKacheong Poon uint8_t *nexthdrp; 5642721fffe3SKacheong Poon uint32_t seg_seq; 5643721fffe3SKacheong Poon 5644721fffe3SKacheong Poon /* 5645721fffe3SKacheong Poon * Verify that we have a complete IP header. 5646721fffe3SKacheong Poon */ 5647721fffe3SKacheong Poon ASSERT((MBLKL(mp) >= sizeof (ip6_t))); 5648721fffe3SKacheong Poon 5649721fffe3SKacheong Poon icmp6 = (icmp6_t *)&mp->b_rptr[iph_hdr_length]; 5650721fffe3SKacheong Poon ip6h = (ip6_t *)&icmp6[1]; 5651721fffe3SKacheong Poon /* 5652721fffe3SKacheong Poon * Verify if we have a complete ICMP and inner IP header. 5653721fffe3SKacheong Poon */ 5654721fffe3SKacheong Poon if ((uchar_t *)&ip6h[1] > mp->b_wptr) { 5655721fffe3SKacheong Poon noticmpv6: 5656721fffe3SKacheong Poon freemsg(mp); 5657721fffe3SKacheong Poon return; 5658721fffe3SKacheong Poon } 5659721fffe3SKacheong Poon 5660721fffe3SKacheong Poon if (!ip_hdr_length_nexthdr_v6(mp, ip6h, &iph_hdr_length, &nexthdrp)) 5661721fffe3SKacheong Poon goto noticmpv6; 5662721fffe3SKacheong Poon tcpha = (tcpha_t *)((char *)ip6h + iph_hdr_length); 5663721fffe3SKacheong Poon /* 5664721fffe3SKacheong Poon * Validate inner header. If the ULP is not IPPROTO_TCP or if we don't 5665721fffe3SKacheong Poon * have at least ICMP_MIN_TCP_HDR bytes of TCP header drop the 5666721fffe3SKacheong Poon * packet. 5667721fffe3SKacheong Poon */ 5668721fffe3SKacheong Poon if ((*nexthdrp != IPPROTO_TCP) || 5669721fffe3SKacheong Poon ((uchar_t *)tcpha + ICMP_MIN_TCP_HDR) > mp->b_wptr) { 5670721fffe3SKacheong Poon goto noticmpv6; 5671721fffe3SKacheong Poon } 5672721fffe3SKacheong Poon 5673721fffe3SKacheong Poon seg_seq = ntohl(tcpha->tha_seq); 5674721fffe3SKacheong Poon switch (icmp6->icmp6_type) { 5675721fffe3SKacheong Poon case ICMP6_PACKET_TOO_BIG: 5676721fffe3SKacheong Poon /* 5677721fffe3SKacheong Poon * Update Path MTU, then try to send something out. 5678721fffe3SKacheong Poon */ 5679721fffe3SKacheong Poon tcp_update_pmtu(tcp, B_TRUE); 5680721fffe3SKacheong Poon tcp_rexmit_after_error(tcp); 5681721fffe3SKacheong Poon break; 5682721fffe3SKacheong Poon case ICMP6_DST_UNREACH: 5683721fffe3SKacheong Poon switch (icmp6->icmp6_code) { 5684721fffe3SKacheong Poon case ICMP6_DST_UNREACH_NOPORT: 5685721fffe3SKacheong Poon if (((tcp->tcp_state == TCPS_SYN_SENT) || 5686721fffe3SKacheong Poon (tcp->tcp_state == TCPS_SYN_RCVD)) && 5687721fffe3SKacheong Poon (seg_seq == tcp->tcp_iss)) { 5688721fffe3SKacheong Poon (void) tcp_clean_death(tcp, ECONNREFUSED); 5689721fffe3SKacheong Poon } 5690721fffe3SKacheong Poon break; 5691721fffe3SKacheong Poon case ICMP6_DST_UNREACH_ADMIN: 5692721fffe3SKacheong Poon case ICMP6_DST_UNREACH_NOROUTE: 5693721fffe3SKacheong Poon case ICMP6_DST_UNREACH_BEYONDSCOPE: 5694721fffe3SKacheong Poon case ICMP6_DST_UNREACH_ADDR: 5695721fffe3SKacheong Poon /* Record the error in case we finally time out. */ 5696721fffe3SKacheong Poon tcp->tcp_client_errno = EHOSTUNREACH; 5697721fffe3SKacheong Poon if (((tcp->tcp_state == TCPS_SYN_SENT) || 5698721fffe3SKacheong Poon (tcp->tcp_state == TCPS_SYN_RCVD)) && 5699721fffe3SKacheong Poon (seg_seq == tcp->tcp_iss)) { 5700721fffe3SKacheong Poon if (tcp->tcp_listener != NULL && 5701721fffe3SKacheong Poon tcp->tcp_listener->tcp_syn_defense) { 5702721fffe3SKacheong Poon /* 5703721fffe3SKacheong Poon * Ditch the half-open connection if we 5704721fffe3SKacheong Poon * suspect a SYN attack is under way. 5705721fffe3SKacheong Poon */ 5706721fffe3SKacheong Poon (void) tcp_clean_death(tcp, 5707721fffe3SKacheong Poon tcp->tcp_client_errno); 5708721fffe3SKacheong Poon } 5709721fffe3SKacheong Poon } 5710721fffe3SKacheong Poon 5711721fffe3SKacheong Poon 5712721fffe3SKacheong Poon break; 5713721fffe3SKacheong Poon default: 5714721fffe3SKacheong Poon break; 5715721fffe3SKacheong Poon } 5716721fffe3SKacheong Poon break; 5717721fffe3SKacheong Poon case ICMP6_PARAM_PROB: 5718721fffe3SKacheong Poon /* If this corresponds to an ICMP_PROTOCOL_UNREACHABLE */ 5719721fffe3SKacheong Poon if (icmp6->icmp6_code == ICMP6_PARAMPROB_NEXTHEADER && 5720721fffe3SKacheong Poon (uchar_t *)ip6h + icmp6->icmp6_pptr == 5721721fffe3SKacheong Poon (uchar_t *)nexthdrp) { 5722721fffe3SKacheong Poon if (tcp->tcp_state == TCPS_SYN_SENT || 5723721fffe3SKacheong Poon tcp->tcp_state == TCPS_SYN_RCVD) { 5724721fffe3SKacheong Poon (void) tcp_clean_death(tcp, ECONNREFUSED); 5725721fffe3SKacheong Poon } 5726721fffe3SKacheong Poon break; 5727721fffe3SKacheong Poon } 5728721fffe3SKacheong Poon break; 5729721fffe3SKacheong Poon 5730721fffe3SKacheong Poon case ICMP6_TIME_EXCEEDED: 5731721fffe3SKacheong Poon default: 5732721fffe3SKacheong Poon break; 5733721fffe3SKacheong Poon } 5734721fffe3SKacheong Poon freemsg(mp); 5735721fffe3SKacheong Poon } 5736721fffe3SKacheong Poon 5737721fffe3SKacheong Poon /* 5738721fffe3SKacheong Poon * CALLED OUTSIDE OF SQUEUE! It can not follow any pointers that tcp might 5739721fffe3SKacheong Poon * change. But it can refer to fields like tcp_suna and tcp_snxt. 5740721fffe3SKacheong Poon * 5741721fffe3SKacheong Poon * Function tcp_verifyicmp is called as conn_verifyicmp to verify the ICMP 5742721fffe3SKacheong Poon * error messages received by IP. The message is always received on the correct 5743721fffe3SKacheong Poon * tcp_t. 5744721fffe3SKacheong Poon */ 5745721fffe3SKacheong Poon /* ARGSUSED */ 5746721fffe3SKacheong Poon boolean_t 5747721fffe3SKacheong Poon tcp_verifyicmp(conn_t *connp, void *arg2, icmph_t *icmph, icmp6_t *icmp6, 5748721fffe3SKacheong Poon ip_recv_attr_t *ira) 5749721fffe3SKacheong Poon { 5750721fffe3SKacheong Poon tcpha_t *tcpha = (tcpha_t *)arg2; 5751721fffe3SKacheong Poon uint32_t seq = ntohl(tcpha->tha_seq); 5752721fffe3SKacheong Poon tcp_t *tcp = connp->conn_tcp; 5753721fffe3SKacheong Poon 5754721fffe3SKacheong Poon /* 5755721fffe3SKacheong Poon * TCP sequence number contained in payload of the ICMP error message 5756721fffe3SKacheong Poon * should be within the range SND.UNA <= SEG.SEQ < SND.NXT. Otherwise, 5757721fffe3SKacheong Poon * the message is either a stale ICMP error, or an attack from the 5758721fffe3SKacheong Poon * network. Fail the verification. 5759721fffe3SKacheong Poon */ 5760721fffe3SKacheong Poon if (SEQ_LT(seq, tcp->tcp_suna) || SEQ_GEQ(seq, tcp->tcp_snxt)) 5761721fffe3SKacheong Poon return (B_FALSE); 5762721fffe3SKacheong Poon 5763721fffe3SKacheong Poon /* For "too big" we also check the ignore flag */ 5764721fffe3SKacheong Poon if (ira->ira_flags & IRAF_IS_IPV4) { 5765721fffe3SKacheong Poon ASSERT(icmph != NULL); 5766721fffe3SKacheong Poon if (icmph->icmph_type == ICMP_DEST_UNREACHABLE && 5767721fffe3SKacheong Poon icmph->icmph_code == ICMP_FRAGMENTATION_NEEDED && 5768721fffe3SKacheong Poon tcp->tcp_tcps->tcps_ignore_path_mtu) 5769721fffe3SKacheong Poon return (B_FALSE); 5770721fffe3SKacheong Poon } else { 5771721fffe3SKacheong Poon ASSERT(icmp6 != NULL); 5772721fffe3SKacheong Poon if (icmp6->icmp6_type == ICMP6_PACKET_TOO_BIG && 5773721fffe3SKacheong Poon tcp->tcp_tcps->tcps_ignore_path_mtu) 5774721fffe3SKacheong Poon return (B_FALSE); 5775721fffe3SKacheong Poon } 5776721fffe3SKacheong Poon return (B_TRUE); 5777721fffe3SKacheong Poon } 5778