man/man8/tcpconnlat.8 - platform/external/bcc - Gitiles

 .TH tcpconnlat 8  "2016-02-19" "USER COMMANDS"
 .SH NAME
 tcpconnlat \- Trace TCP active connection latency. Uses Linux eBPF/bcc.
 .SH SYNOPSIS
 .B tcpconnlat [\-h] [\-t] [\-p PID] [-v] [min_ms]
 .SH DESCRIPTION
 This tool traces active TCP connections
 (eg, via a connect() syscall), and shows the latency (time) for the connection
 as measured locally: the time from SYN sent to the response packet.
 This is a useful performance metric that typically spans kernel TCP/IP
 processing and the network round trip time (not application runtime).

 All connection attempts are traced, even if they ultimately fail (RST packet
 in response).

 This tool works by use of kernel dynamic tracing of TCP/IP functions, and will
 need updating to match any changes to these functions. This tool should be
 updated in the future to use static tracepoints, once they are available.

 Since this uses BPF, only the root user can use this tool.
 .SH REQUIREMENTS
 CONFIG_BPF and bcc.
 .SH OPTIONS
 .TP
 \-h
 Print usage message.
 .TP
 \-t
 Include a timestamp column.
 .TP
 \-p PID
 Trace this process ID only (filtered in-kernel).
 .TP
 \-v
 Print the resulting BPF program, for debugging purposes.
 .TP
 min_ms
 Minimum duration to trace, in milliseconds.
 .SH EXAMPLES
 .TP
 Trace all active TCP connections, and show connection latency (SYN->response round trip):
 #
 .B tcpconnlat
 .TP
 Include timestamps:
 #
 .B tcpconnlat \-t
 .TP
 Trace PID 181 only:
 #
 .B tcpconnlat \-p 181
 .TP
 Trace connects with latency longer than 10 ms:
 #
 .B tcpconnlat 10
 .TP
 Print the BPF program:
 #
 .B tcpconnlat \-v
 .SH FIELDS
 .TP
 TIME(s)
 Time of the response packet, in seconds.
 .TP
 PID
 Process ID that initiated the connection.
 .TP
 COMM
 Process name that initiated the connection.
 .TP
 IP
 IP address family (4 or 6).
 .TP
 SADDR
 Source IP address.
 .TP
 DADDR
 Destination IP address.
 .TP
 DPORT
 Destination port
 .TP
 LAT(ms)
 The time from when a TCP connect was issued (measured in-kernel) to when a
 response packet was received for this connection (can be SYN,ACK, or RST, etc).
 This time spans kernel to kernel latency, involving kernel TCP/IP processing
 and the network round trip in between. This typically does not include
 time spent by the application processing the new connection.
 .SH OVERHEAD
 This traces the kernel tcp_v[46]_connect functions and prints output for each
 event. As the rate of this is generally expected to be low (< 1000/s), the
 overhead is also expected to be negligible. If you have an application that
 is calling a high rate of connects()s, such as a proxy server, then test and
 understand this overhead before use.
 .SH SOURCE
 This is from bcc.
 .IP
 https://github.com/iovisor/bcc
 .PP
 Also look in the bcc distribution for a companion _examples.txt file containing
 example usage, output, and commentary for this tool.
 .SH OS
 Linux
 .SH STABILITY
 Unstable - in development.
 .SH AUTHOR
 Brendan Gregg
 .SH SEE ALSO
 tcpconnect(8), tcpaccept(8), funccount(8), tcpdump(8)
	.TH tcpconnlat 8 "2016-02-19" "USER COMMANDS"
	.SH NAME
	tcpconnlat \- Trace TCP active connection latency. Uses Linux eBPF/bcc.
	.SH SYNOPSIS
	.B tcpconnlat [\-h] [\-t] [\-p PID] [-v] [min_ms]
	.SH DESCRIPTION
	This tool traces active TCP connections
	(eg, via a connect() syscall), and shows the latency (time) for the connection
	as measured locally: the time from SYN sent to the response packet.
	This is a useful performance metric that typically spans kernel TCP/IP
	processing and the network round trip time (not application runtime).

	All connection attempts are traced, even if they ultimately fail (RST packet
	in response).

	This tool works by use of kernel dynamic tracing of TCP/IP functions, and will
	need updating to match any changes to these functions. This tool should be
	updated in the future to use static tracepoints, once they are available.

	Since this uses BPF, only the root user can use this tool.
	.SH REQUIREMENTS
	CONFIG_BPF and bcc.
	.SH OPTIONS
	.TP
	\-h
	Print usage message.
	.TP
	\-t
	Include a timestamp column.
	.TP
	\-p PID
	Trace this process ID only (filtered in-kernel).
	.TP
	\-v
	Print the resulting BPF program, for debugging purposes.
	.TP
	min_ms
	Minimum duration to trace, in milliseconds.
	.SH EXAMPLES
	.TP
	Trace all active TCP connections, and show connection latency (SYN->response round trip):
	#
	.B tcpconnlat
	.TP
	Include timestamps:
	#
	.B tcpconnlat \-t
	.TP
	Trace PID 181 only:
	#
	.B tcpconnlat \-p 181
	.TP
	Trace connects with latency longer than 10 ms:
	#
	.B tcpconnlat 10
	.TP
	Print the BPF program:
	#
	.B tcpconnlat \-v
	.SH FIELDS
	.TP
	TIME(s)
	Time of the response packet, in seconds.
	.TP
	PID
	Process ID that initiated the connection.
	.TP
	COMM
	Process name that initiated the connection.
	.TP
	IP
	IP address family (4 or 6).
	.TP
	SADDR
	Source IP address.
	.TP
	DADDR
	Destination IP address.
	.TP
	DPORT
	Destination port
	.TP
	LAT(ms)
	The time from when a TCP connect was issued (measured in-kernel) to when a
	response packet was received for this connection (can be SYN,ACK, or RST, etc).
	This time spans kernel to kernel latency, involving kernel TCP/IP processing
	and the network round trip in between. This typically does not include
	time spent by the application processing the new connection.
	.SH OVERHEAD
	This traces the kernel tcp_v[46]_connect functions and prints output for each
	event. As the rate of this is generally expected to be low (< 1000/s), the
	overhead is also expected to be negligible. If you have an application that
	is calling a high rate of connects()s, such as a proxy server, then test and
	understand this overhead before use.
	.SH SOURCE
	This is from bcc.
	.IP
	https://github.com/iovisor/bcc
	.PP
	Also look in the bcc distribution for a companion _examples.txt file containing
	example usage, output, and commentary for this tool.
	.SH OS
	Linux
	.SH STABILITY
	Unstable - in development.
	.SH AUTHOR
	Brendan Gregg
	.SH SEE ALSO
	tcpconnect(8), tcpaccept(8), funccount(8), tcpdump(8)