freebsd-skq/usr.bin/netstat/sctp.c
pfg 872b698bd4 General further adoption of SPDX licensing ID tags.
Mainly focus on files that use BSD 3-Clause license.

The Software Package Data Exchange (SPDX) group provides a specification
to make it easier for automated tools to detect and summarize well known
opensource licenses. We are gradually adopting the specification, noting
that the tags are considered only advisory and do not, in any way,
superceed or replace the license texts.

Special thanks to Wind River for providing access to "The Duke of
Highlander" tool: an older (2014) run over FreeBSD tree was useful as a
starting point.
2017-11-20 19:49:47 +00:00

844 lines
25 KiB
C

/*-
* SPDX-License-Identifier: BSD-3-Clause
*
* Copyright (c) 2001-2007, by Weongyo Jeong. All rights reserved.
* Copyright (c) 2011, by Michael Tuexen. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* a) Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* b) Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the distribution.
*
* c) Neither the name of Cisco Systems, Inc. nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
*/
#if 0
#ifndef lint
static char sccsid[] = "@(#)sctp.c 0.1 (Berkeley) 4/18/2007";
#endif /* not lint */
#endif
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <sys/param.h>
#include <sys/queue.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <sys/socketvar.h>
#include <sys/sysctl.h>
#include <sys/protosw.h>
#include <netinet/in.h>
#include <netinet/sctp.h>
#include <netinet/sctp_constants.h>
#include <arpa/inet.h>
#include <err.h>
#include <errno.h>
#include <libutil.h>
#include <netdb.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdbool.h>
#include <string.h>
#include <unistd.h>
#include "netstat.h"
#include <libxo/xo.h>
#ifdef SCTP
static void sctp_statesprint(uint32_t state);
#define NETSTAT_SCTP_STATES_CLOSED 0x0
#define NETSTAT_SCTP_STATES_BOUND 0x1
#define NETSTAT_SCTP_STATES_LISTEN 0x2
#define NETSTAT_SCTP_STATES_COOKIE_WAIT 0x3
#define NETSTAT_SCTP_STATES_COOKIE_ECHOED 0x4
#define NETSTAT_SCTP_STATES_ESTABLISHED 0x5
#define NETSTAT_SCTP_STATES_SHUTDOWN_SENT 0x6
#define NETSTAT_SCTP_STATES_SHUTDOWN_RECEIVED 0x7
#define NETSTAT_SCTP_STATES_SHUTDOWN_ACK_SENT 0x8
#define NETSTAT_SCTP_STATES_SHUTDOWN_PENDING 0x9
static const char *sctpstates[] = {
"CLOSED",
"BOUND",
"LISTEN",
"COOKIE_WAIT",
"COOKIE_ECHOED",
"ESTABLISHED",
"SHUTDOWN_SENT",
"SHUTDOWN_RECEIVED",
"SHUTDOWN_ACK_SENT",
"SHUTDOWN_PENDING"
};
static LIST_HEAD(xladdr_list, xladdr_entry) xladdr_head;
struct xladdr_entry {
struct xsctp_laddr *xladdr;
LIST_ENTRY(xladdr_entry) xladdr_entries;
};
static LIST_HEAD(xraddr_list, xraddr_entry) xraddr_head;
struct xraddr_entry {
struct xsctp_raddr *xraddr;
LIST_ENTRY(xraddr_entry) xraddr_entries;
};
static void
sctp_print_address(const char *container, union sctp_sockstore *address,
int port, int num_port)
{
struct servent *sp = 0;
char line[80], *cp;
int width;
size_t alen, plen;
if (container)
xo_open_container(container);
switch (address->sa.sa_family) {
#ifdef INET
case AF_INET:
snprintf(line, sizeof(line), "%.*s.",
Wflag ? 39 : 16, inetname(&address->sin.sin_addr));
break;
#endif
#ifdef INET6
case AF_INET6:
snprintf(line, sizeof(line), "%.*s.",
Wflag ? 39 : 16, inet6name(&address->sin6.sin6_addr));
break;
#endif
default:
snprintf(line, sizeof(line), "%.*s.",
Wflag ? 39 : 16, "");
break;
}
alen = strlen(line);
cp = line + alen;
if (!num_port && port)
sp = getservbyport((int)port, "sctp");
if (sp || port == 0)
snprintf(cp, sizeof(line) - alen,
"%.15s ", sp ? sp->s_name : "*");
else
snprintf(cp, sizeof(line) - alen,
"%d ", ntohs((u_short)port));
width = Wflag ? 45 : 22;
xo_emit("{d:target/%-*.*s} ", width, width, line);
plen = strlen(cp) - 1;
alen--;
xo_emit("{e:address/%*.*s}{e:port/%*.*s}", alen, alen, line, plen,
plen, cp);
if (container)
xo_close_container(container);
}
static int
sctp_skip_xinpcb_ifneed(char *buf, const size_t buflen, size_t *offset)
{
int exist_tcb = 0;
struct xsctp_tcb *xstcb;
struct xsctp_raddr *xraddr;
struct xsctp_laddr *xladdr;
while (*offset < buflen) {
xladdr = (struct xsctp_laddr *)(buf + *offset);
*offset += sizeof(struct xsctp_laddr);
if (xladdr->last == 1)
break;
}
while (*offset < buflen) {
xstcb = (struct xsctp_tcb *)(buf + *offset);
*offset += sizeof(struct xsctp_tcb);
if (xstcb->last == 1)
break;
exist_tcb = 1;
while (*offset < buflen) {
xladdr = (struct xsctp_laddr *)(buf + *offset);
*offset += sizeof(struct xsctp_laddr);
if (xladdr->last == 1)
break;
}
while (*offset < buflen) {
xraddr = (struct xsctp_raddr *)(buf + *offset);
*offset += sizeof(struct xsctp_raddr);
if (xraddr->last == 1)
break;
}
}
/*
* If Lflag is set, we don't care about the return value.
*/
if (Lflag)
return 0;
return exist_tcb;
}
static void
sctp_process_tcb(struct xsctp_tcb *xstcb,
char *buf, const size_t buflen, size_t *offset, int *indent)
{
int i, xl_total = 0, xr_total = 0, x_max;
struct xsctp_raddr *xraddr;
struct xsctp_laddr *xladdr;
struct xladdr_entry *prev_xl = NULL, *xl = NULL, *xl_tmp;
struct xraddr_entry *prev_xr = NULL, *xr = NULL, *xr_tmp;
LIST_INIT(&xladdr_head);
LIST_INIT(&xraddr_head);
/*
* Make `struct xladdr_list' list and `struct xraddr_list' list
* to handle the address flexibly.
*/
while (*offset < buflen) {
xladdr = (struct xsctp_laddr *)(buf + *offset);
*offset += sizeof(struct xsctp_laddr);
if (xladdr->last == 1)
break;
prev_xl = xl;
xl = malloc(sizeof(struct xladdr_entry));
if (xl == NULL) {
xo_warnx("malloc %lu bytes",
(u_long)sizeof(struct xladdr_entry));
goto out;
}
xl->xladdr = xladdr;
if (prev_xl == NULL)
LIST_INSERT_HEAD(&xladdr_head, xl, xladdr_entries);
else
LIST_INSERT_AFTER(prev_xl, xl, xladdr_entries);
xl_total++;
}
while (*offset < buflen) {
xraddr = (struct xsctp_raddr *)(buf + *offset);
*offset += sizeof(struct xsctp_raddr);
if (xraddr->last == 1)
break;
prev_xr = xr;
xr = malloc(sizeof(struct xraddr_entry));
if (xr == NULL) {
xo_warnx("malloc %lu bytes",
(u_long)sizeof(struct xraddr_entry));
goto out;
}
xr->xraddr = xraddr;
if (prev_xr == NULL)
LIST_INSERT_HEAD(&xraddr_head, xr, xraddr_entries);
else
LIST_INSERT_AFTER(prev_xr, xr, xraddr_entries);
xr_total++;
}
/*
* Let's print the address infos.
*/
xo_open_list("address");
xl = LIST_FIRST(&xladdr_head);
xr = LIST_FIRST(&xraddr_head);
x_max = MAX(xl_total, xr_total);
for (i = 0; i < x_max; i++) {
xo_open_instance("address");
if (((*indent == 0) && i > 0) || *indent > 0)
xo_emit("{P:/%-12s} ", " ");
if (xl != NULL) {
sctp_print_address("local", &(xl->xladdr->address),
htons(xstcb->local_port), numeric_port);
} else {
if (Wflag) {
xo_emit("{P:/%-45s} ", " ");
} else {
xo_emit("{P:/%-22s} ", " ");
}
}
if (xr != NULL && !Lflag) {
sctp_print_address("remote", &(xr->xraddr->address),
htons(xstcb->remote_port), numeric_port);
}
if (xl != NULL)
xl = LIST_NEXT(xl, xladdr_entries);
if (xr != NULL)
xr = LIST_NEXT(xr, xraddr_entries);
if (i == 0 && !Lflag)
sctp_statesprint(xstcb->state);
if (i < x_max)
xo_emit("\n");
xo_close_instance("address");
}
out:
/*
* Free the list which be used to handle the address.
*/
xl = LIST_FIRST(&xladdr_head);
while (xl != NULL) {
xl_tmp = LIST_NEXT(xl, xladdr_entries);
free(xl);
xl = xl_tmp;
}
xr = LIST_FIRST(&xraddr_head);
while (xr != NULL) {
xr_tmp = LIST_NEXT(xr, xraddr_entries);
free(xr);
xr = xr_tmp;
}
}
static void
sctp_process_inpcb(struct xsctp_inpcb *xinpcb,
char *buf, const size_t buflen, size_t *offset)
{
int indent = 0, xladdr_total = 0, is_listening = 0;
static int first = 1;
const char *tname, *pname;
struct xsctp_tcb *xstcb;
struct xsctp_laddr *xladdr;
size_t offset_laddr;
int process_closed;
if (xinpcb->maxqlen > 0)
is_listening = 1;
if (first) {
if (!Lflag) {
xo_emit("Active SCTP associations");
if (aflag)
xo_emit(" (including servers)");
} else
xo_emit("Current listen queue sizes (qlen/maxqlen)");
xo_emit("\n");
if (Lflag)
xo_emit("{T:/%-6.6s} {T:/%-5.5s} {T:/%-8.8s} "
"{T:/%-22.22s}\n",
"Proto", "Type", "Listen", "Local Address");
else
if (Wflag)
xo_emit("{T:/%-6.6s} {T:/%-5.5s} {T:/%-45.45s} "
"{T:/%-45.45s} {T:/%s}\n",
"Proto", "Type",
"Local Address", "Foreign Address",
"(state)");
else
xo_emit("{T:/%-6.6s} {T:/%-5.5s} {T:/%-22.22s} "
"{T:/%-22.22s} {T:/%s}\n",
"Proto", "Type",
"Local Address", "Foreign Address",
"(state)");
first = 0;
}
xladdr = (struct xsctp_laddr *)(buf + *offset);
if ((!aflag && is_listening) ||
(Lflag && !is_listening)) {
sctp_skip_xinpcb_ifneed(buf, buflen, offset);
return;
}
if (xinpcb->flags & SCTP_PCB_FLAGS_BOUND_V6) {
/* Can't distinguish between sctp46 and sctp6 */
pname = "sctp46";
} else {
pname = "sctp4";
}
if (xinpcb->flags & SCTP_PCB_FLAGS_TCPTYPE)
tname = "1to1";
else if (xinpcb->flags & SCTP_PCB_FLAGS_UDPTYPE)
tname = "1toN";
else
tname = "????";
if (Lflag) {
char buf1[22];
snprintf(buf1, sizeof buf1, "%u/%u",
xinpcb->qlen, xinpcb->maxqlen);
xo_emit("{:protocol/%-6.6s/%s} {:type/%-5.5s/%s} ",
pname, tname);
xo_emit("{d:queues/%-8.8s}{e:queue-len/%hu}"
"{e:max-queue-len/%hu} ",
buf1, xinpcb->qlen, xinpcb->maxqlen);
}
offset_laddr = *offset;
process_closed = 0;
xo_open_list("local-address");
retry:
while (*offset < buflen) {
xladdr = (struct xsctp_laddr *)(buf + *offset);
*offset += sizeof(struct xsctp_laddr);
if (xladdr->last) {
if (aflag && !Lflag && (xladdr_total == 0) && process_closed) {
xo_open_instance("local-address");
xo_emit("{:protocol/%-6.6s/%s} "
"{:type/%-5.5s/%s} ", pname, tname);
if (Wflag) {
xo_emit("{P:/%-91.91s/%s} "
"{:state/CLOSED}", " ");
} else {
xo_emit("{P:/%-45.45s/%s} "
"{:state/CLOSED}", " ");
}
xo_close_instance("local-address");
}
if (process_closed || is_listening) {
xo_emit("\n");
}
break;
}
if (!Lflag && !is_listening && !process_closed)
continue;
xo_open_instance("local-address");
if (xladdr_total == 0) {
if (!Lflag) {
xo_emit("{:protocol/%-6.6s/%s} "
"{:type/%-5.5s/%s} ", pname, tname);
}
} else {
xo_emit("\n");
xo_emit(Lflag ? "{P:/%-21.21s} " : "{P:/%-12.12s} ",
" ");
}
sctp_print_address("local", &(xladdr->address),
htons(xinpcb->local_port), numeric_port);
if (aflag && !Lflag && xladdr_total == 0) {
if (Wflag) {
if (process_closed) {
xo_emit("{P:/%-45.45s} "
"{:state/CLOSED}", " ");
} else {
xo_emit("{P:/%-45.45s} "
"{:state/LISTEN}", " ");
}
} else {
if (process_closed) {
xo_emit("{P:/%-22.22s} "
"{:state/CLOSED}", " ");
} else {
xo_emit("{P:/%-22.22s} "
"{:state/LISTEN}", " ");
}
}
}
xladdr_total++;
xo_close_instance("local-address");
}
xstcb = (struct xsctp_tcb *)(buf + *offset);
*offset += sizeof(struct xsctp_tcb);
if (aflag && (xladdr_total == 0) && xstcb->last && !process_closed) {
process_closed = 1;
*offset = offset_laddr;
goto retry;
}
while (xstcb->last == 0 && *offset < buflen) {
xo_emit("{:protocol/%-6.6s/%s} {:type/%-5.5s/%s} ",
pname, tname);
sctp_process_tcb(xstcb, buf, buflen, offset, &indent);
indent++;
xstcb = (struct xsctp_tcb *)(buf + *offset);
*offset += sizeof(struct xsctp_tcb);
}
xo_close_list("local-address");
}
/*
* Print a summary of SCTP connections related to an Internet
* protocol.
*/
void
sctp_protopr(u_long off __unused,
const char *name __unused, int af1 __unused, int proto)
{
char *buf;
const char *mibvar = "net.inet.sctp.assoclist";
size_t offset = 0;
size_t len = 0;
struct xsctp_inpcb *xinpcb;
if (proto != IPPROTO_SCTP)
return;
if (sysctlbyname(mibvar, 0, &len, 0, 0) < 0) {
if (errno != ENOENT)
xo_warn("sysctl: %s", mibvar);
return;
}
if ((buf = malloc(len)) == NULL) {
xo_warnx("malloc %lu bytes", (u_long)len);
return;
}
if (sysctlbyname(mibvar, buf, &len, 0, 0) < 0) {
xo_warn("sysctl: %s", mibvar);
free(buf);
return;
}
xinpcb = (struct xsctp_inpcb *)(buf + offset);
offset += sizeof(struct xsctp_inpcb);
while (xinpcb->last == 0 && offset < len) {
sctp_process_inpcb(xinpcb, buf, (const size_t)len,
&offset);
xinpcb = (struct xsctp_inpcb *)(buf + offset);
offset += sizeof(struct xsctp_inpcb);
}
free(buf);
}
static void
sctp_statesprint(uint32_t state)
{
int idx;
switch (state) {
case SCTP_CLOSED:
idx = NETSTAT_SCTP_STATES_CLOSED;
break;
case SCTP_BOUND:
idx = NETSTAT_SCTP_STATES_BOUND;
break;
case SCTP_LISTEN:
idx = NETSTAT_SCTP_STATES_LISTEN;
break;
case SCTP_COOKIE_WAIT:
idx = NETSTAT_SCTP_STATES_COOKIE_WAIT;
break;
case SCTP_COOKIE_ECHOED:
idx = NETSTAT_SCTP_STATES_COOKIE_ECHOED;
break;
case SCTP_ESTABLISHED:
idx = NETSTAT_SCTP_STATES_ESTABLISHED;
break;
case SCTP_SHUTDOWN_SENT:
idx = NETSTAT_SCTP_STATES_SHUTDOWN_SENT;
break;
case SCTP_SHUTDOWN_RECEIVED:
idx = NETSTAT_SCTP_STATES_SHUTDOWN_RECEIVED;
break;
case SCTP_SHUTDOWN_ACK_SENT:
idx = NETSTAT_SCTP_STATES_SHUTDOWN_ACK_SENT;
break;
case SCTP_SHUTDOWN_PENDING:
idx = NETSTAT_SCTP_STATES_SHUTDOWN_PENDING;
break;
default:
xo_emit("UNKNOWN {:state/0x%08x}", state);
return;
}
xo_emit("{:state/%s}", sctpstates[idx]);
}
/*
* Dump SCTP statistics structure.
*/
void
sctp_stats(u_long off, const char *name, int af1 __unused, int proto __unused)
{
struct sctpstat sctpstat;
if (fetch_stats("net.inet.sctp.stats", off, &sctpstat,
sizeof(sctpstat), kread) != 0)
return;
xo_open_container(name);
xo_emit("{T:/%s}:\n", name);
#define p(f, m) if (sctpstat.f || sflag <= 1) \
xo_emit(m, (uintmax_t)sctpstat.f, plural(sctpstat.f))
#define p1a(f, m) if (sctpstat.f || sflag <= 1) \
xo_emit(m, (uintmax_t)sctpstat.f)
/*
* input statistics
*/
p(sctps_recvpackets, "\t{:received-packets/%ju} "
"{N:/input packet%s}\n");
p(sctps_recvdatagrams, "\t\t{:received-datagrams/%ju} "
"{N:/datagram%s}\n");
p(sctps_recvpktwithdata, "\t\t{:received-with-data/%ju} "
"{N:/packet%s that had data}\n");
p(sctps_recvsacks, "\t\t{:received-sack-chunks/%ju} "
"{N:/input SACK chunk%s}\n");
p(sctps_recvdata, "\t\t{:received-data-chunks/%ju} "
"{N:/input DATA chunk%s}\n");
p(sctps_recvdupdata, "\t\t{:received-duplicate-data-chunks/%ju} "
"{N:/duplicate DATA chunk%s}\n");
p(sctps_recvheartbeat, "\t\t{:received-hb-chunks/%ju} "
"{N:/input HB chunk%s}\n");
p(sctps_recvheartbeatack, "\t\t{:received-hb-ack-chunks/%ju} "
"{N:/HB-ACK chunk%s}\n");
p(sctps_recvecne, "\t\t{:received-ecne-chunks/%ju} "
"{N:/input ECNE chunk%s}\n");
p(sctps_recvauth, "\t\t{:received-auth-chunks/%ju} "
"{N:/input AUTH chunk%s}\n");
p(sctps_recvauthmissing, "\t\t{:dropped-missing-auth/%ju} "
"{N:/chunk%s missing AUTH}\n");
p(sctps_recvivalhmacid, "\t\t{:dropped-invalid-hmac/%ju} "
"{N:/invalid HMAC id%s received}\n");
p(sctps_recvivalkeyid, "\t\t{:dropped-invalid-secret/%ju} "
"{N:/invalid secret id%s received}\n");
p1a(sctps_recvauthfailed, "\t\t{:dropped-auth-failed/%ju} "
"{N:/auth failed}\n");
p1a(sctps_recvexpress, "\t\t{:received-fast-path/%ju} "
"{N:/fast path receives all one chunk}\n");
p1a(sctps_recvexpressm, "\t\t{:receives-fast-path-multipart/%ju} "
"{N:/fast path multi-part data}\n");
/*
* output statistics
*/
p(sctps_sendpackets, "\t{:sent-packets/%ju} "
"{N:/output packet%s}\n");
p(sctps_sendsacks, "\t\t{:sent-sacks/%ju} "
"{N:/output SACK%s}\n");
p(sctps_senddata, "\t\t{:sent-data-chunks/%ju} "
"{N:/output DATA chunk%s}\n");
p(sctps_sendretransdata, "\t\t{:sent-retransmitted-data-chunks/%ju} "
"{N:/retransmitted DATA chunk%s}\n");
p(sctps_sendfastretrans, "\t\t"
"{:sent-fast-retransmitted-data-chunks/%ju} "
"{N:/fast retransmitted DATA chunk%s}\n");
p(sctps_sendmultfastretrans, "\t\t"
"{:sent-fast-retransmitted-data-chunk-multiple-times/%ju} "
"{N:/FR'%s that happened more than once to same chunk}\n");
p(sctps_sendheartbeat, "\t\t{:sent-hb-chunks/%ju} "
"{N:/output HB chunk%s}\n");
p(sctps_sendecne, "\t\t{:sent-ecne-chunks/%ju} "
"{N:/output ECNE chunk%s}\n");
p(sctps_sendauth, "\t\t{:sent-auth-chunks/%ju} "
"{N:/output AUTH chunk%s}\n");
p1a(sctps_senderrors, "\t\t{:send-errors/%ju} "
"{N:/ip_output error counter}\n");
/*
* PCKDROPREP statistics
*/
xo_emit("\t{T:Packet drop statistics}:\n");
xo_open_container("drop-statistics");
p1a(sctps_pdrpfmbox, "\t\t{:middle-box/%ju} "
"{N:/from middle box}\n");
p1a(sctps_pdrpfehos, "\t\t{:end-host/%ju} "
"{N:/from end host}\n");
p1a(sctps_pdrpmbda, "\t\t{:with-data/%ju} "
"{N:/with data}\n");
p1a(sctps_pdrpmbct, "\t\t{:non-data/%ju} "
"{N:/non-data, non-endhost}\n");
p1a(sctps_pdrpbwrpt, "\t\t{:non-endhost/%ju} "
"{N:/non-endhost, bandwidth rep only}\n");
p1a(sctps_pdrpcrupt, "\t\t{:short-header/%ju} "
"{N:/not enough for chunk header}\n");
p1a(sctps_pdrpnedat, "\t\t{:short-data/%ju} "
"{N:/not enough data to confirm}\n");
p1a(sctps_pdrppdbrk, "\t\t{:chunk-break/%ju} "
"{N:/where process_chunk_drop said break}\n");
p1a(sctps_pdrptsnnf, "\t\t{:tsn-not-found/%ju} "
"{N:/failed to find TSN}\n");
p1a(sctps_pdrpdnfnd, "\t\t{:reverse-tsn/%ju} "
"{N:/attempt reverse TSN lookup}\n");
p1a(sctps_pdrpdiwnp, "\t\t{:confirmed-zero-window/%ju} "
"{N:/e-host confirms zero-rwnd}\n");
p1a(sctps_pdrpdizrw, "\t\t{:middle-box-no-space/%ju} "
"{N:/midbox confirms no space}\n");
p1a(sctps_pdrpbadd, "\t\t{:bad-data/%ju} "
"{N:/data did not match TSN}\n");
p(sctps_pdrpmark, "\t\t{:tsn-marked-fast-retransmission/%ju} "
"{N:/TSN'%s marked for Fast Retran}\n");
xo_close_container("drop-statistics");
/*
* Timeouts
*/
xo_emit("\t{T:Timeouts}:\n");
xo_open_container("timeouts");
p(sctps_timoiterator, "\t\t{:iterator/%ju} "
"{N:/iterator timer%s fired}\n");
p(sctps_timodata, "\t\t{:t3-data/%ju} "
"{N:/T3 data time out%s}\n");
p(sctps_timowindowprobe, "\t\t{:window-probe/%ju} "
"{N:/window probe (T3) timer%s fired}\n");
p(sctps_timoinit, "\t\t{:init-timer/%ju} "
"{N:/INIT timer%s fired}\n");
p(sctps_timosack, "\t\t{:sack-timer/%ju} "
"{N:/sack timer%s fired}\n");
p(sctps_timoshutdown, "\t\t{:shutdown-timer/%ju} "
"{N:/shutdown timer%s fired}\n");
p(sctps_timoheartbeat, "\t\t{:heartbeat-timer/%ju} "
"{N:/heartbeat timer%s fired}\n");
p1a(sctps_timocookie, "\t\t{:cookie-timer/%ju} "
"{N:/a cookie timeout fired}\n");
p1a(sctps_timosecret, "\t\t{:endpoint-changed-cookie/%ju} "
"{N:/an endpoint changed its cook}ie"
"secret\n");
p(sctps_timopathmtu, "\t\t{:pmtu-timer/%ju} "
"{N:/PMTU timer%s fired}\n");
p(sctps_timoshutdownack, "\t\t{:shutdown-timer/%ju} "
"{N:/shutdown ack timer%s fired}\n");
p(sctps_timoshutdownguard, "\t\t{:shutdown-guard-timer/%ju} "
"{N:/shutdown guard timer%s fired}\n");
p(sctps_timostrmrst, "\t\t{:stream-reset-timer/%ju} "
"{N:/stream reset timer%s fired}\n");
p(sctps_timoearlyfr, "\t\t{:early-fast-retransmission-timer/%ju} "
"{N:/early FR timer%s fired}\n");
p1a(sctps_timoasconf, "\t\t{:asconf-timer/%ju} "
"{N:/an asconf timer fired}\n");
p1a(sctps_timoautoclose, "\t\t{:auto-close-timer/%ju} "
"{N:/auto close timer fired}\n");
p(sctps_timoassockill, "\t\t{:asoc-free-timer/%ju} "
"{N:/asoc free timer%s expired}\n");
p(sctps_timoinpkill, "\t\t{:input-free-timer/%ju} "
"{N:/inp free timer%s expired}\n");
xo_close_container("timeouts");
#if 0
/*
* Early fast retransmission counters
*/
p(sctps_earlyfrstart, "\t%ju TODO:sctps_earlyfrstart\n");
p(sctps_earlyfrstop, "\t%ju TODO:sctps_earlyfrstop\n");
p(sctps_earlyfrmrkretrans, "\t%ju TODO:sctps_earlyfrmrkretrans\n");
p(sctps_earlyfrstpout, "\t%ju TODO:sctps_earlyfrstpout\n");
p(sctps_earlyfrstpidsck1, "\t%ju TODO:sctps_earlyfrstpidsck1\n");
p(sctps_earlyfrstpidsck2, "\t%ju TODO:sctps_earlyfrstpidsck2\n");
p(sctps_earlyfrstpidsck3, "\t%ju TODO:sctps_earlyfrstpidsck3\n");
p(sctps_earlyfrstpidsck4, "\t%ju TODO:sctps_earlyfrstpidsck4\n");
p(sctps_earlyfrstrid, "\t%ju TODO:sctps_earlyfrstrid\n");
p(sctps_earlyfrstrout, "\t%ju TODO:sctps_earlyfrstrout\n");
p(sctps_earlyfrstrtmr, "\t%ju TODO:sctps_earlyfrstrtmr\n");
#endif
/*
* Others
*/
p1a(sctps_hdrops, "\t{:dropped-too-short/%ju} "
"{N:/packet shorter than header}\n");
p1a(sctps_badsum, "\t{:dropped-bad-checksum/%ju} "
"{N:/checksum error}\n");
p1a(sctps_noport, "\t{:dropped-no-endpoint/%ju} "
"{N:/no endpoint for port}\n");
p1a(sctps_badvtag, "\t{:dropped-bad-v-tag/%ju} "
"{N:/bad v-tag}\n");
p1a(sctps_badsid, "\t{:dropped-bad-sid/%ju} "
"{N:/bad SID}\n");
p1a(sctps_nomem, "\t{:dropped-no-memory/%ju} "
"{N:/no memory}\n");
p1a(sctps_fastretransinrtt, "\t{:multiple-fast-retransmits-in-rtt/%ju} "
"{N:/number of multiple FR in a RT}T window\n");
#if 0
p(sctps_markedretrans, "\t%ju TODO:sctps_markedretrans\n");
#endif
p1a(sctps_naglesent, "\t{:rfc813-sent/%ju} "
"{N:/RFC813 allowed sending}\n");
p1a(sctps_naglequeued, "\t{:rfc813-queued/%ju} "
"{N:/RFC813 does not allow sending}\n");
p1a(sctps_maxburstqueued, "\t{:max-burst-queued/%ju} "
"{N:/times max burst prohibited sending}\n");
p1a(sctps_ifnomemqueued, "\t{:no-memory-in-interface/%ju} "
"{N:/look ahead tells us no memory in interface}\n");
p(sctps_windowprobed, "\t{:sent-window-probes/%ju} "
"{N:/number%s of window probes sent}\n");
p(sctps_lowlevelerr, "\t{:low-level-err/%ju} "
"{N:/time%s an output error to clamp down on next user send}\n");
p(sctps_lowlevelerrusr, "\t{:low-level-user-error/%ju} "
"{N:/time%s sctp_senderrors were caused from a user}\n");
p(sctps_datadropchklmt, "\t{:dropped-chunk-limit/%ju} "
"{N:/number of in data drop%s due to chunk limit reached}\n");
p(sctps_datadroprwnd, "\t{:dropped-rwnd-limit/%ju} "
"{N:/number of in data drop%s due to rwnd limit reached}\n");
p(sctps_ecnereducedcwnd, "\t{:ecn-reduced-cwnd/%ju} "
"{N:/time%s a ECN reduced the cwnd}\n");
p1a(sctps_vtagexpress, "\t{:v-tag-express-lookup/%ju} "
"{N:/used express lookup via vtag}\n");
p1a(sctps_vtagbogus, "\t{:v-tag-collision/%ju} "
"{N:/collision in express lookup}\n");
p(sctps_primary_randry, "\t{:sender-ran-dry/%ju} "
"{N:/time%s the sender ran dry of user data on primary}\n");
p1a(sctps_cmt_randry, "\t{:cmt-ran-dry/%ju} "
"{N:/same for above}\n");
p(sctps_slowpath_sack, "\t{:slow-path-sack/%ju} "
"{N:/sack%s the slow way}\n");
p(sctps_wu_sacks_sent, "\t{:sent-window-update-only-sack/%ju} "
"{N:/window update only sack%s sent}\n");
p(sctps_sends_with_flags, "\t{:sent-with-sinfo/%ju} "
"{N:/send%s with sinfo_flags !=0}\n");
p(sctps_sends_with_unord, "\t{:sent-with-unordered/%ju} "
"{N:/unordered send%s}\n");
p(sctps_sends_with_eof, "\t{:sent-with-eof/%ju} "
"{N:/send%s with EOF flag set}\n");
p(sctps_sends_with_abort, "\t{:sent-with-abort/%ju} "
"{N:/send%s with ABORT flag set}\n");
p(sctps_protocol_drain_calls, "\t{:protocol-drain-called/%ju} "
"{N:/time%s protocol drain called}\n");
p(sctps_protocol_drains_done, "\t{:protocol-drain/%ju} "
"{N:/time%s we did a protocol drain}\n");
p(sctps_read_peeks, "\t{:read-with-peek/%ju} "
"{N:/time%s recv was called with peek}\n");
p(sctps_cached_chk, "\t{:cached-chunks/%ju} "
"{N:/cached chunk%s used}\n");
p1a(sctps_cached_strmoq, "\t{:cached-output-queue-used/%ju} "
"{N:/cached stream oq's used}\n");
p(sctps_left_abandon, "\t{:messages-abandoned/%ju} "
"{N:/unread message%s abandonded by close}\n");
p1a(sctps_send_burst_avoid, "\t{:send-burst-avoidance/%ju} "
"{N:/send burst avoidance, already max burst inflight to net}\n");
p1a(sctps_send_cwnd_avoid, "\t{:send-cwnd-avoidance/%ju} "
"{N:/send cwnd full avoidance, already max burst inflight "
"to net}\n");
p(sctps_fwdtsn_map_over, "\t{:tsn-map-overruns/%ju} "
"{N:/number of map array over-run%s via fwd-tsn's}\n");
#undef p
#undef p1a
xo_close_container(name);
}
#endif /* SCTP */