// TCP tapset // Copyright (C) 2006 IBM Corp. // Copyright (C) 2006 Intel Corporation. // Copyright (C) 2007 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. %{ #include #include #include #include %} // Get retransmission timeout in usecs. RTO is initialized from default // retransmission time, but can be adjusted (increased) each time we // retransmit. It should always be less than the max value of TCP retransmission // timeout (TCP_RTO_MAX) function tcp_get_info_rto:long(sock:long) %{ /* pure */ struct sock *sk = (struct sock *)(long) THIS->sock; #if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,10) struct tcp_opt *tp = tcp_sk(sk); THIS->__retvalue = (int64_t) jiffies_to_usecs(kread(&(tp->rto))); #else const struct inet_connection_sock *icsk = inet_csk(sk); THIS->__retvalue = (int64_t) jiffies_to_usecs(kread(&(icsk->icsk_rto))); #endif CATCH_DEREF_FAULT(); %} //Get congestion window segment size. Initial value of congestion window size //typically set to one segment (i.e., slow start algorithm, each segment can be 512 bytes). //This congestion window size can be dynamically increased based on whether TCP //is performing slow start or congestion avoidance. function tcp_get_info_snd_cwnd:long(sock:long) %{ /* pure */ struct sock *sk = (struct sock *)(long) THIS->sock; #if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,10) struct tcp_opt *tp = tcp_sk(sk); #else struct tcp_sock *tp = tcp_sk(sk); #endif THIS->__retvalue = (int64_t) kread(&(tp->snd_cwnd)); CATCH_DEREF_FAULT(); %} // //Definitions of the TCP protocol sk_state field listed below. // // TCP_ESTABLISHED = 1, Normal data transfer // TCP_SYN_SENT = 2, App. has started to open a connection // TCP_SYN_RECV = 3, A connection request has arrived; wait for ACK // TCP_FIN_WAIT1 = 4, App. has said it is finished // TCP_FIN_WAIT2 = 5, The other side has agreed to close // TCP_TIME_WAIT = 6, Wait for all packets to die off // TCP_CLOSE = 7, No connection is active or pending // TCP_CLOSE_WAIT = 8, The other side has initiated a release // TCP_LAST_ACK = 9, Last ACK, wait for all packets to die off // TCP_LISTEN = 10, Waiting for incoming call // TCP_CLOSING = 11, Both sides have tried to close simultaneously // TCP_MAX_STATES = 12 Max states number // function tcp_ts_get_info_state:long(sock:long) %{ /* pure */ struct sock *sk = (struct sock *)(long) THIS->sock; THIS->__retvalue = (int64_t) kread(&(sk->sk_state)); CATCH_DEREF_FAULT(); %} global sockstate[13], sockstate_init_p function tcp_sockstate_str:string (state:long) { if (! sockstate_init_p) { sockstate_init_p = 1 sockstate[1] = "TCP_ESTABLISHED" sockstate[2] = "TCP_SYN_SENT" sockstate[3] = "TCP_SYN_RECV" sockstate[4] = "TCP_FIN_WAIT1" sockstate[5] = "TCP_FIN_WAIT2" sockstate[6] = "TCP_TIME_WAIT" sockstate[7] = "TCP_CLOSE" sockstate[8] = "TCP_CLOSE_WAIT" sockstate[9] = "TCP_LAST_ACK" sockstate[10] = "TCP_LISTEN" sockstate[11] = "TCP_CLOSING" sockstate[12] = "TCP_MAX_STATES" } return (state in sockstate ? sockstate[state] : "UNDEF") } // Get slow start threshold size. If cwnd size is less than or equal to // threshold size, then TCP is in slow start; otherwise TCP is in congestion // avoidance. function tcp_ts_get_info_snd_ssthresh:long(sock:long) %{ /* pure */ struct sock *sk = (struct sock *)(long) THIS->sock; #if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,10) struct tcp_opt *tp = tcp_sk(sk); #else struct tcp_sock *tp = tcp_sk(sk); #endif THIS->__retvalue = (int64_t) kread(&(tp->snd_ssthresh)); CATCH_DEREF_FAULT(); %} // Get receiver's advertised segment size. TCP typically never sends more // than what receiver can accept. function tcp_ts_get_info_rcv_mss:long(sock:long) %{ /* pure */ struct sock *sk = (struct sock *)(long) THIS->sock; #if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,10) struct tcp_opt *tp = tcp_sk(sk); THIS->__retvalue = (int64_t) kread(&(tp->ack.rcv_mss)); #else const struct inet_connection_sock *icsk = inet_csk(sk); THIS->__retvalue = (int64_t) kread(&(icsk->icsk_ack.rcv_mss)); #endif CATCH_DEREF_FAULT(); %} global sockopt[15], sockopt_init_p function tcp_sockopt_str:string (optname:long) { if (!sockopt_init_p) { sockopt_init_p=1 sockopt[1] = "TCP_NODELAY" sockopt[2] = "TCP_MAXSEG" sockopt[3] = "TCP_CORK" sockopt[4] = "TCP_KEEPIDLE" sockopt[5] = "TCP_KEEPINTVL" sockopt[6] = "TCP_KEEPCNT" sockopt[7] = "TCP_SYNCNT" sockopt[8] = "TCP_LINGER2" sockopt[9] = "TCP_DEFER_ACCEPT" sockopt[10] = "TCP_WINDOW_CLAMP" sockopt[11] = "TCP_INFO" sockopt[12] = "TCP_QUICKACK" sockopt[13] = "TCP_CONGESTION" sockopt[14] = "TCP_MD5SIG" } return (optname in sockopt ? sockopt[optname] : "UNDEF") } /** * probe tcp.sendmsg - Sending a tcp message * @name: Name of this probe * @sock: Network socket * @size: Number of bytes to send * * Context: * The process which sends a tcp message */ probe tcp.sendmsg = kernel.function("tcp_sendmsg") { name = "tcp.sendmsg" %( kernel_v < "2.6.23" %? sock = $sk %: sock = $sock %) size = $size } /** * probe tcp.sendmsg.return - Sending TCP message is done * @name: Name of this probe * @size: Number of bytes sent or error code if an error occurred. * * Context: * The process which sends a tcp message */ probe tcp.sendmsg.return = kernel.function("tcp_sendmsg").return { name = "tcp.sendmsg" size = $return } /** * probe tcp.recvmsg - Receiving TCP message * @name: Name of this probe * @sock: Network socket * @size: Number of bytes to be received * Context: * The process which receives a tcp message */ probe tcp.recvmsg = kernel.function("tcp_recvmsg") { name = "tcp.recvmsg" sock = $sk size = $len } /** * probe tcp.recvmsg.return - Receiving TCP message complete * @name: Name of this probe * @size: Number of bytes received or error code if an error occurred. * * Context: * The process which receives a tcp message */ probe tcp.recvmsg.return = kernel.function("tcp_recvmsg").return { name = "tcp.recvmsg" size = $return } /** * probe tcp.disconnect - TCP socket disconnection * @name: Name of this probe * @sock: Network socket * @flags: TCP flags (e.g. FIN, etc) * * Context: * The process which disconnects tcp */ probe tcp.disconnect = kernel.function("tcp_disconnect") { name = "tcp.disconnect" sock = $sk flags = $flags } /** * probe tcp.disconnect.return - TCP socket disconnection complete * @name: Name of this probe * @ret: Error code (0: no error) * * Context: * The process which disconnects tcp */ probe tcp.disconnect.return = kernel.function("tcp_disconnect").return { name = "tcp.disconnect" ret = $return } /** * probe tcp.setsockopt - Call to setsockopt() * @name: Name of this probe * @sock: Network socket * @level: The level at which the socket options will be manipulated * @optname: TCP socket options (e.g. TCP_NODELAY, TCP_MAXSEG, etc) * @optstr: Resolves optname to a human-readable format * @optlen: Used to access values for setsockopt() * * Context: * The process which calls setsockopt */ probe tcp.setsockopt = kernel.function("tcp_setsockopt") { name = "tcp.setsockopt" sock = $sk level = $level optname = $optname optstr = tcp_sockopt_str($optname) optlen = $optlen } /** * probe tcp.setsockopt.return - Return from setsockopt() * @name: Name of this probe * @ret: Error code (0: no error) * * Context: * The process which calls setsockopt */ probe tcp.setsockopt.return = kernel.function("tcp_setsockopt").return { name = "tcp.setsockopt" ret = $return }