/usr/share/systemtap/tapset/linux/tcpmib.stp is in systemtap-common 2.9-2ubuntu2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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* Copyright (C) 2009 IBM Corp.
* Copyright (C) 2010 Red Hat Inc.
*
* This file is part of systemtap, and is free software. You can
* redistribute it and/or modify it under the terms of the GNU General
* Public License (GPL); either version 2, or (at your option) any
* later version.
*
* Version 1.0 wilder@us.ibm.com 2009-07-06
*/
/* Global counter definitions for mib TCP_MIB. */
%{
#include <net/sock.h>
#include <linux/tcp.h>
#include <linux/skbuff.h>
#include <net/route.h>
%}
global ActiveOpens
global AttemptFails
global CurrEstab
global EstabResets
// global InErrs, this mib is not yet supported
global InSegs
global OutRsts
global OutSegs
global PassiveOpens
global RetransSegs
/**
* sfunction tcpmib_get_state - Get a socket's state
* @sk: pointer to a struct sock
*
* Returns the sk_state from a struct sock.
*/
function tcpmib_get_state:long (sk:long)
{
return @cast(sk, "sock", "kernel")->__sk_common->skc_state;
}
/**
* sfunction tcpmib_local_addr - Get the source address
* @sk: pointer to a struct inet_sock
*
* Returns the saddr from a struct inet_sock in host order.
*/
function tcpmib_local_addr:long(sk:long)
{
return ntohl(__ip_sock_saddr(sk))
}
/**
* sfunction tcpmib_remote_addr - Get the remote address
* @sk: pointer to a struct inet_sock
*
* Returns the daddr from a struct inet_sock in host order.
*/
function tcpmib_remote_addr:long(sk:long)
{
return ntohl(__ip_sock_daddr(sk))
}
/**
* sfunction tcpmib_local_port - Get the local port
* @sk: pointer to a struct inet_sock
*
* Returns the sport from a struct inet_sock in host order.
*/
function tcpmib_local_port:long(sk:long)
{
return __tcp_sock_sport(sk)
}
/**
* sfunction tcpmib_remote_port - Get the remote port
* @sk: pointer to a struct inet_sock
*
* Returns the dport from a struct inet_sock in host order.
*/
function tcpmib_remote_port:long(sk:long)
{
return __tcp_sock_dport(sk)
}
/**
* probe tcpmib.ActiveOpens - Count an active opening of a socket
* @sk: pointer to the struct sock being acted on
* @op: value to be added to the counter (default value of 1)
*
* The packet pointed to by @skb is filtered by the function
* tcpmib_filter_key(). If the packet passes the filter is is
* counted in the global @ActiveOpens (equivalent to SNMP's MIB
* TCP_MIB_ACTIVEOPENS)
*/
probe
tcpmib.ActiveOpens = kernel.function("tcp_connect").return
{
sk = $sk;
op = 1;
if ( $return ) next;
// definition in tcpipstat.stp
key = tcpmib_filter_key($sk,op);
if ( key ) ActiveOpens[key] += op;
}
/**
* probe tcpmib.AttemptFails - Count a failed attempt to open a socket
* @sk: pointer to the struct sock being acted on
* @op: value to be added to the counter (default value of 1)
*
* The packet pointed to by @skb is filtered by the function
* tcpmib_filter_key(). If the packet passes the filter is is
* counted in the global @AttemptFails (equivalent to SNMP's MIB
* TCP_MIB_ATTEMPTFAILS)
*/
probe
tcpmib.AttemptFails = kernel.function("tcp_done").call ?
{
sk = $sk;
state = tcpmib_get_state($sk);
op = 1;
TCP_SYN_SENT = 2;
TCP_SYN_RECV = 3;
if( state == TCP_SYN_SENT || state == TCP_SYN_RECV){
key = tcpmib_filter_key($sk,op);
if ( key ) AttemptFails[key] += op;
}
}
/**
* probe tcpmib.CurrEstab - Update the count of open sockets
* @sk: pointer to the struct sock being acted on
* @op: value to be added to the counter (default value of 1)
*
* The packet pointed to by @skb is filtered by the function
* tcpmib_filter_key(). If the packet passes the filter is is
* counted in the global @CurrEstab (equivalent to SNMP's MIB
* TCP_MIB_CURRESTAB)
*/
probe
tcpmib.CurrEstab = kernel.function("tcp_set_state").call ?
{
sk = $sk;
state = $state;
oldstate = tcpmib_get_state($sk);
TCP_ESTABLISHED = 1;
if ( oldstate == TCP_ESTABLISHED ) {
op = -1;
key = tcpmib_filter_key($sk,op);
if ( key ) CurrEstab[key] += op;
} else {
if ( state == TCP_ESTABLISHED ) {
op = 1;
key = tcpmib_filter_key($sk,op);
if ( key ) CurrEstab[key] += op;
}
}
}
/**
* probe tcpmib.EstabResets - Count the reset of a socket
* @sk: pointer to the struct sock being acted on
* @op: value to be added to the counter (default value of 1)
*
* The packet pointed to by @skb is filtered by the function
* tcpmib_filter_key(). If the packet passes the filter is is
* counted in the global @EstabResets (equivalent to SNMP's MIB
* TCP_MIB_ESTABRESETS)
*/
probe
tcpmib.EstabResets = kernel.function("tcp_set_state").call ?
{
sk = $sk;
state = $state;
oldstate = tcpmib_get_state($sk);
op = 1;
TCP_CLOSE = 7;
TCP_CLOSE_WAIT = 8;
TCP_ESTABLISHED = 1;
if ( ( state == TCP_CLOSE ) &&
(oldstate == TCP_CLOSE_WAIT || oldstate == TCP_ESTABLISHED) ){
key = tcpmib_filter_key($sk,op);
if ( key ) EstabResets[key] += op;
}
}
/**
* probe tcpmib.InSegs - Count an incoming tcp segment
* @sk: pointer to the struct sock being acted on
* @op: value to be added to the counter (default value of 1)
*
* The packet pointed to by @skb is filtered by the function
* tcpmib_filter_key() (or ipmib_filter_key() for tcp v4).
* If the packet passes the filter is is
* counted in the global @InSegs (equivalent to SNMP's MIB
* TCP_MIB_INSEGS)
*/
probe
tcpmib.InSegs =
kernel.function("__inet_lookup_established").return !,
kernel.function("tcp_v4_rcv")
{
if (@defined($return)) {
sk=$return
key = tcpmib_filter_key($return,op)
}
else {
# We don't know the sk in tcp_v4_rcv()
sk=0
key = ipmib_filter_key($skb,op,0);
}
op=1
if ( key ) InSegs[key] += op;
}
/**
* probe tcpmib.OutRsts - Count the sending of a reset packet
* @sk: pointer to the struct sock being acted on
* @op: value to be added to the counter (default value of 1)
*
* The packet pointed to by @skb is filtered by the function
* tcpmib_filter_key(). If the packet passes the filter is is
* counted in the global @OutRsts (equivalent to SNMP's MIB
* TCP_MIB_OUTRSTS)
*/
probe
tcpmib.OutRsts = __tcpmib.OutRsts.*
{
}
function _rtn_local:long ()
%{
STAP_RETVALUE = RTN_LOCAL;
%}
function _is_reset:long (skb:long)
%{ /* pure */
struct tcphdr *th;
struct sk_buff *skb = (struct sk_buff *)(long)STAP_ARG_skb;
struct tcphdr th_copy;
#if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,21)
th = (struct tcphdr *)kread(&(skb->h.th));
#else
#ifdef NET_SKBUFF_DATA_USES_OFFSET
th = (struct tcphdr *)(kread(&(skb->network_header)) + kread(&(skb->head)));
#else
th = (struct tcphdr *)kread(&(skb->network_header));
#endif
#endif
// We'd like to kread the 'rst' field here. But, it is a
// bitfield (and you can't take the address of a
// bitfield). So, let's kread the entire tcphdr, then grab the
// 'rst' field out of the copy. Luckily, the tcphdr is only 20
// bytes long.
memset (((void*)&th_copy), 0, sizeof(th_copy));
kderef_buffer(((void *)&th_copy), th, sizeof(struct tcphdr));
STAP_RETVALUE = th_copy.rst;
CATCH_DEREF_FAULT();
%}
function _tcpmib_input_route_type:long (skb:long)
%{ /* pure */
struct rtable *rt;
struct sk_buff *skb = (struct sk_buff *)(long)STAP_ARG_skb;
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,35)
rt = (struct rtable *)kread(&(skb->_skb_refdst));
#else
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,31)
rt = (struct rtable *)kread(&(skb->_skb_dst));
#else
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,26)
rt = (struct rtable *)kread(&(skb->dst));
#else
rt = (struct rtable *)kread(&(skb->rtable));
#endif
#endif
#endif
if ( rt )
STAP_RETVALUE = kread(&(rt->rt_type));
else
STAP_RETVALUE = RTN_UNSPEC;
CATCH_DEREF_FAULT();
%}
/*
* note:
* tcp_v4_send_reset may be called with a NULL sk.
* This happens when sending a reset in response to a syn
* when no socket exists (for example the service is not running).
* Without a socket we can't count the reset.
*/
probe
__tcpmib.OutRsts.tcp_v4_send_reset = kernel.function("tcp_v4_send_reset")
{
sk = @choose_defined($sk, 0)
op = 1;
if ( _is_reset($skb) ) next
if (_tcpmib_input_route_type($skb) != _rtn_local() )
next;
key = (@defined($sk) ? tcpmib_filter_key(sk,op)
: ipmib_filter_key($skb,op,1))
if ( key ) OutRsts[key] += op;
}
probe
__tcpmib.OutRsts.tcp_send_active_reset =
kernel.function("tcp_send_active_reset")
{
/* Almost correct,
* If alloc_skb() fails it incorrectly bumps TCP_MIB_OUTRSTS,
*/
sk = $sk;
op = 1;
key = tcpmib_filter_key($sk,op);
if ( key ) OutRsts[key] += op;
}
/**
* probe tcpmib.OutSegs - Count the sending of a TCP segment
* @sk: pointer to the struct sock being acted on
* @op: value to be added to the counter (default value of 1)
*
* The packet pointed to by @skb is filtered by the function
* tcpmib_filter_key(). If the packet passes the filter is is
* counted in the global @OutSegs (equivalent to SNMP's MIB
* TCP_MIB_OUTSEGS)
*/
probe
tcpmib.OutSegs=kernel.function("ip_queue_xmit").return
{
if ( $return < 0 ) next;
sk = $skb->sk;
op = 1;
// Only count the events with protocol IPPROTO_TCP,6.
iphdr = __get_skb_iphdr($skb);
if( !(__ip_skb_proto(iphdr) == 6) ) next ;
key = tcpmib_filter_key(sk,op);
if ( key ) OutSegs[key] += op;
}
/**
* probe tcpmib.PassiveOpens - Count the passive creation of a socket
* @sk: pointer to the struct sock being acted on
* @op: value to be added to the counter (default value of 1)
*
* The packet pointed to by @skb is filtered by the function
* tcpmib_filter_key(). If the packet passes the filter is is
* counted in the global @PassiveOpens (equivalent to SNMP's MIB
* TCP_MIB_PASSIVEOPENS)
*/
probe
tcpmib.PassiveOpens=kernel.function("tcp_v4_syn_recv_sock").return
{
sk = $return;
op = 1;
if ( !sk ) next;
key = tcpmib_filter_key(sk,op);
if ( key ) PassiveOpens[key] += op;
}
/**
* probe tcpmib.RetransSegs - Count the retransmission of a TCP segment
* @sk: pointer to the struct sock being acted on
* @op: value to be added to the counter (default value of 1)
*
* The packet pointed to by @skb is filtered by the function
* tcpmib_filter_key(). If the packet passes the filter is is
* counted in the global @RetransSegs (equivalent to SNMP's MIB
* TCP_MIB_RETRANSSEGS)
*/
probe
tcpmib.RetransSegs=kernel.function("tcp_retransmit_skb").return
{
sk = $sk;
op = 1;
if ( $return ) next;
key = tcpmib_filter_key($sk,op);
if ( key ) RetransSegs[key] += op;
}
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