Provided by: nfstrace_0.4.3.1-3_amd64 
NAME
nfstrace - NFS and CIFS tracing/monitoring/capturing/analyzing tool
SYNOPSIS
nfstrace [ -m drain|live|dump|stat ] [ -i interface ] [ -f filter ]
[ -s 1..65535 ] [ -t Milliseconds ] [ -b MBytes ] [ -p promisc ]
[ -d in|out|inout ] [ -a path#opt1,opt2=val,... ] [ -I path ]
[ -O path ] [ -C 'shell command' ] [ -D MBytes ] [ -E interfaces|plugins ]
[ -M 1..4000 ] [ -Q 1..65535 ] [ -T true|false ] [ -Z username ] [ -v 0|1|2 ]
DESCRIPTION
nfstrace performs live Ethernet 1 Gbps – 10 Gbps packets capturing and helps to determine NFS and CIFS
procedures in raw network traffic. Furthermore, it performs filtration, dumping, compression, statistical
analysis, visualization and provides the API for custom pluggable analysis modules.
nfstrace captures raw packets from an Ethernet interface using libpcap interface to Linux (LSF) or
FreeBSD (BPF) implementations. At the moment it is assumed that libpcap delivers correct TCP and UDP
packets. Assembling of IP packets from ethernet frames and IP packets defragmentation are performed in
the operating system's kernel.
The application has been tested on the workstations with integrated 1 Gbps NICs (Ethernet
1000baseT/Full).
Currently nfstrace supports the following protocols:
Ethernet > IPv4 | IPv6 > UDP | TCP > NFSv3 | NFSv4 | NFSv4.1 | CIFSv1 | CIFSv2
nfstrace can operate in four different modes:
- online analysis (--mode=live): performs online capturing, filtration and live analysis of detected
NFS procedures using a pluggable analysis module or prints out them to stdout (-T or --trace options);
- online dumping (--mode=dump): performs online traffic capturing, filtration and dumping to the
output file (specified with -O or --ofile options);
- offline analysis (--mode=stat): performs offline filtration of the .pcap file that contains
previously captured traces and performs analysis using a pluggable analysis module or prints found NFS
procedures to stdout (-T or --trace options);
- offline dumping (--mode=drain): performs a reading of traffic from the .pcap file (specified with -I
or --ifile options), filtration, dumping to the output .pcap file (specified with -O or --ofile
options) and removing all the packets that are not related to NFS procedures.
nfstrace uses libpcap file format for input and output files so any external tool (e.g. Wireshark) can
be used in order to inspect filtered traces.
Since nfstrace internally uses libpcap that provides a portable interface to the native system API for
capturing network traffic, filtration is performed in the operating system's kernel. nfstrace provides a
special option (-f or --filtration) for specifying custom filters in BPF syntax (see pcap-filter(7)).
The default BPF filter in nfstrace is 'port 2049 or port 445', which means that each packet that is
delivered to user-space from the kernel satisfies the following conditions: it has IPv4 or IPv6 header
and it has TCP and UDP header with source or destination port number equals to 2049 (default NFS port) or
445 (default CIFS port).
The reality is that this filter is very heavy and support of IPv6 is experimental, so if you want to
reach faster filtration of IPv4-only traffic we suggest to use the following BPF filter:
'ip and port 2049 or port 445'.
OPTIONS
nfstrace can usually be run without arguments: in this case default arguments will be used.
-m, --mode=live|dump|drain|stat
Set the running mode (see the description above) (default: live).
-i, --interface=INTERFACE
Listen interface, it is required for live and dump modes (default: searches for the lowest
numbered, configured up interface (except loopback)).
-f, --filtration=filter
Specify the packet filter in BPF syntax; for the expression syntax, see pcap-filter(7)
(default: 'port 2049 or port 445').
-s, --snaplen=1..65535
Set the max length of captured raw packet (bigger packets will be truncated). Can be used only
for UDP (default: 65535).
-t, --timeout=milliseconds
Set the read timeout that will be used while capturing (default: 100).
-b, --bsize=MBytes
Set the size of the operating system capture buffer in MBytes; note that this option is crucial
for capturing performance (default: 20).
-p, --promisc
Put the capturing interface into promiscuous mode (default: true).
-d, --direction=in|out|inout
Set the direction for which packets will be captured (default: inout).
-a, --analysis=PATH#opt1,opt2=val,...
Specify the path to an analysis module and set its options (if any).
-I, --ifile=PATH
Specify the input file for stat mode, '-' means stdin (default: nfstrace-{filter}.pcap).
-O, --ofile=PATH
Specify the output file for dump mode, '-' means stdout (default: nfstrace-{filter}.pcap).
--log=PATH
Specify the log file (default: nfstrace.log.{timestamp}).
-C, --command='shell command'
Execute command for each dumped file.
-D, --dump-size=MBytes
Set the size of the dumping file portion, 0 means no limit (default: 0).
-E, --enum=interfaces|plugins
Enumerate all available network interfaces and and/or all available plugins, then exit; please
note that interfaces can't be listed unless nfstrace was built against the recent version of
libpcap that supports the pcap_findalldevs() function (default: none).
-M, --msg-header=1..4000
Truncate RPC messages to this limit (specified in bytes) before passing to a pluggable analysis
module (default: 512).
-Q, --qcapacity=1..65535
Set the initial capacity of the queue with RPC messages (default: 4096).
-T, --trace
Print collected NFSv3 or NFSv4 procedures, true if no modules were passed with -a option.
-Z, --droproot=username
Drop root privileges after opening the capture device.
-v, --verbose=0|1|2
Specify verbosity level (default: 1).
-h, --help
Print help message and usage for modules passed with -a option, then exit.
ANALYSIS MODULES
Operation Breakdown Analyzer
Operation Breakdown (OB) analyzer calculates average frequency of NFS and CIFS procedures and computes
standard deviation of latency.
$ nfstrace -a libbreakdown.so -h
nfstrace 0.4.0 (Release)
built on Linux-3.16.1-1-generic
by C++ compiler GNU 4.9.1
Usage: ./nfstrace [OPTIONS]...
Usage example:
$ nfstrace -m stat -a libreakdown.so
Breakdown analyzer produces .dat file in the current directory for each detected NFS session that can
be visualized using nst.sh and breakdown_nfsv3.plt or breakdown_nfsv4.plt (according to NFS version).
$ nst.sh -a breakdown_nfsv4.plt -d . -p 'breakdown_10.6.137.47:903*.dat'
Watch
Watch plugin mimics old nfswatch utility: it monitors NFS and CIFS traffic and displays it in terminal
using ncurses. It supports NFSv3, NFSv4, NFSv41, CIFSv1 and CIFSv2.
By default watch plugin will update its screen every second, you can specify another timeout in
milliseconds:
$ nfstrace -a libwatch.so#2000
JSON Analyzer
JSON analyzer calculates a total amount of each supported application protocol operation. It accepts TCP-
connections on particular TCP-endpoint (host:port), sends a respective JSON to the TCP-client and closes
connection. Suggested to be used in live mode.
Available options
host=hostname
Network interface to listen (default is to listen all interfaces)
port=port
IP-port to bind to (default: 8888)
workers=workers
Amount of worker threads (default: 10)
duration=duration
Max serving duration in milliseconds (default: 500)
backlog=backlog
Listen backlog (default: 15)
Example of use
Start nfstrace in one console:
$ sudo nfstrace -i eth0 -a analyzers/libjson.so#host=localhost
...
Make a TCP-request to nfstrace in another console to fetch current statistics:
$ telnet localhost 8888
Trying 127.0.0.1...
Connected to localhost.
Escape character is '^]'.
{
"nfs_v3":{
"null":32,
"getattr":4582,
...
},
"nfs_v4":{
...
},
...
}Connection closed by foreign host.
EXAMPLES
Available options
The following command demonstrates available options of the application and plugged analysis modules
(attached with --analysis or -a options). Note that you can pass more than one module here.
nfstrace --help --analysis=libjson.so
Online tracing
The following command will run nfstrace in online analysis mode (specified with --mode or -m options)
without a pluggable analysis module. It will capture NFS and CIFS traffic transferred over TCP or UDP
with source or destination port number equals to 2049 and will simply print them out to stdout (-T or
--trace options). Capturing ends when nfstrace receives SIGINT (Control-C).
Note that capturing from network interface requires superuser privileges.
nfstrace --mode=live --filtration='ip and port 2049' --trace
Online analysis
The following command demonstrates running nfstrace in online analysis mode. Just like in the previous
example it will capture NFS and CIFS traffic transferred over TCP or UDP with source or destination port
number equals to 2049 and then it will perform Operation Breakdown analysis using pluggable analysis
module libbreakdown.so.
nfstrace -m live -f 'ip and port 2049' --analysis=libbreakdown.so
Online dumping and offline analysis
The following example demonstrates running nfstrace in online dumping and offline analysis modes.
At first nfstrace will capture NFS traffic transferred over TCP or UDP with source or destination port
number equals to 2049 and will dump captured packets to dump.pcap file (specified with --ofile or -O
options).
At the second run nfstrace will perform offline Operation Breakdown analysis using pluggable analysis
module libbreakdown.so.
# Dump captured packets to dump.pcap
nfstrace -m dump -f 'ip and port 2049' --ofile=dump.pcap
# Analyse dump.pcap using libbreakdown.so
nfstrace -m stat --ifile=dump.pcap -a libbreakdown.so
Online dumping, compression and offline analysis
The following example demonstrates running nfstrace in online dumping and offline analysis modes. Since
dump file can easily exhaust disk space, compression makes sense.
At first nfstrace will capture NFS traffic transferred over TCP or UDP with source or destination port
number equals to 2049 and will dump captured packets to dump.pcap file.
Note that compression is done by the external tool (executed in script passed with --command or -C
options) and it will be executed when capturing is done. The output file can be inspected using some
external tool.
At the second run nfstrace will perform offline analysis. Again, the external tool (bzcat in this
example) is used in order to decompress previously saved dump. nfstrace will read stdin (note the -I –
option) and perform offline analysis using Operation Breakdown analyzer.
# Dump captured procedures to dump.pcap file.
# Compress output using bzip2 when capturing ends.
nfstrace -m dump -f 'ip and port 2049' -O dump.pcap --command 'bzip2 -f -9'
# Extract dump.pcap from dump.pcap.bz2 to stdin.
# Read stdin and analyze data with libbreakdown.so module.
bzcat dump.pcap.bz2 | nfstrace -m stat -I - -a libbreakdown.so
Online dumping with file limit, compression and offline analysis
This example is similar to the previous one except one thing: output dump file can be very huge and cause
problems in some situations, so nfstrace provides the ability to split it into parts.
At first nfstrace will be invoked in online dumping mode. Everything is similar to the previous example
except -D (--dump-size) option: it specifies the size limit in MBytes, so dump file will be split
according to this value.
At the second run nfstrace will perform offline analysis of captured packets using Operation Breakdown
analyzer.
Please note that only the first dump file has the pcap header.
# Dump captured procedures multiple files and compress them.
nfstrace -m dump -f 'ip and port 2049' -O dump.pcap -D 1 -C bzip2 -f -9
# get list of parts in the right order:
# dump.pcap.bz2
# dump.pcap-1.bz2
# dump.pcap-2.bz2
parts=$(ls dump.pcap*.bz2 | sort -n -t - -k 2)
# Extract dump.pcap from main dump.pcap.bz2 and parts to stdin.
# Read stdin and analyze data with libbreakdown.so module.
bzcat $parts | nfstrace --mode=stat -I - --analysis=libbreakdown.so
Visualization
This example demonstrates the ability to plot graphical representation of data collected by Operation
Breakdown analyzer.
nst.sh is a shell script that collects data generated by analyzers and passes it to gnuplot script
specified with -a option.
breakdown.plt is a gnuplot script that understands output data format of Operation Breakdown analyzer and
generates .png files with plots.
Note that gnuplot must be installed.
# Extract dump.pcap from dump.pcap.bz2 to stdin.
# Read stdin and analyze data with libbreakdown.so module.
bzcat trace.pcap.bz2 | nfstrace -m stat -I - -a libbreakdown.so
# Generate plot according to *.dat files generated by
# libbreakdown.so analyzer.
nst.sh -a breakdown.plt -d . -p 'breakdown*.dat' -v
FILES
API headers
/usr/include/nfstrace/api/
Pluggable Analysis Modules (PAMs)
/usr/lib/nfstrace/
BUGS
Any problems, bugs, questions, desirable enhancements, etc. should be sent to <nfstrace@epam.com>
AUTHORS
Vitali Adamenka <Vitali_Adamenka@epam.com> Yauheni Azaranka <Yauheni_Azaranka@epam.com> Alexey Costroma <Alexey_Costroma@epam.com> Dzianis Huznou <Dzianis_Huznou@epam.com> Pavel Karneliuk <Pavel_Karneliuk@epam.com> Andrey Kuznetsov <Andrey_Kuznetsov@epam.com> Mikhail Litvinets <Mikhail_Litvinets@epam.com> Ilya Storozhilov <Ilya_Storozhilov@epam.com>
SEE ALSO
bpf(4), pcap(3), nfsstat(8), pcap-filter(7).