sc_filterpolicy - Online in the Cloud

This is the command sc_filterpolicy that can be run in the OnWorks free hosting provider using one of our multiple free online workstations such as Ubuntu Online, Fedora Online, Windows online emulator or MAC OS online emulator

PROGRAM:

NAME


sc_filterpolicy — scamper driver to test systems for congruent filtering policy

SYNOPSIS


sc_filterpolicy [-D] [-a input-file] [-l log-file] [-o output-file] [-O options]
[-p scamper-port] [-t host-type] [-T test] [-U scamper-unix]

sc_filterpolicy [-r data-file]

DESCRIPTION


The sc_filterpolicy utility provides the ability to connect to a running scamper(1) instance
and use that instance to test systems for congruent filtering policy. The utility tests
each system specified in the input file by probing for application reachability with ICMP,
UDP, and TCP probes, using both IPv4 and IPv6 where applicable. Each system in the input
file should have multiple IP addresses specified; the driver probes each IP address on each
system one at a time to avoid causing the remote system to rate-limit responses.
sc_filterpolicy obtains speed by probing systems in parallel, though it may appear to
operate slowly because no progress is reported until all addresses belonging to a device
have been tested one at a time.

The applications supported by sc_filterpolicy to test filtering policy are:
- ICMP: test responsiveness to ICMP echo request packets. We classify the IP address as
responsive to ICMP echo requests if it sends an ICMP echo reply.
- NetBIOS: test responsiveness to TCP SYN packets sent to port 139 (the NetBIOS port).
We classify the IP address as responsive if it sends a SYN/ACK.
- MSSQL: test responsiveness to TCP SYN packets sent to port 1433 (the Microsoft SQL
server default port). We classify the IP address as responsive if it sends a SYN/ACK.
- FTP: test responsiveness to TCP SYN packets sent to port 21 (the default port for FTP
control connections). We classify the IP address as responsive if it sends a SYN/ACK.
- SSH: test responsiveness to TCP SYN packets sent to port 22 (the default port for SSH).
We classify the IP address as responsive if it sends a SYN/ACK.
- Telnet: test responsiveness to TCP SYN packets sent to port 23 (the default port for
telnet). We classify the IP address as responsive if it sends a SYN/ACK.
- MySQL: test responsiveness to TCP SYN packets sent to port 3306 (the default port for
MySQL). We classify the IP address as responsive if it sends a SYN/ACK.
- RDP: test responsiveness to TCP SYN packets sent to port 3389 (the default port for
RDP). We classify the IP address as responsive if it sends a SYN/ACK.
- HTTPS: test responsiveness to TCP SYN packets sent to port 443 (the default port for
HTTPS). We classify the IP address as responsive if it sends a SYN/ACK.
- SMB: test responsiveness to TCP SYN packets sent to port 445 (the default port for
SMB). We classify the IP address as responsive if it sends a SYN/ACK.
- HTTP: test responsiveness to TCP SYN packets sent to port 80 (the default port for
HTTP). We classify the IP address as responsive if it sends a SYN/ACK.
- BGP: test responsiveness to TCP SYN packets sent to port 179 (the default port for
BGP). We classify the IP address as responsive if it sends a SYN/ACK.
- NTP: test responsiveness to UDP packets sent to port 123 (the default port for NTP)
with an NTP version request payload. We classify the IP address as responsive if it
sends a UDP response.
- DNS: test responsiveness to UDP packets sent to port 53 (the default port for DNS) with
a query for www.google.com. We classify the IP addresss as responsive if it sends a
UDP response.
- SNMP: test responsiveness to UDP packets sent to port 161 (the default port for SNMP)
with a get for sysDescr via the public community using the SNMPv2c protocol. We
classify the IP addresss as responsive if it sends a UDP response.
- VNC: test responsiveness to TCP SYN packets sent to port 5900 (the default port for
VNC). We classify the IP address as responsive if it sends a SYN/ACK.

The options supported by sc_filterpolicy are as follows:

-? prints a list of command line options and a synopsis of each.

-a input-file
specifies the name of the input file which constists of a sequence of systems to
test. See the examples section for input-file formatting examples.

-D with this option set, sc_filterpolicy will detach and become a daemon.

-l log-file
specifies the name of a file to log progress output from sc_filterpolicy generated
at run time.

-o output-file
specifies the name of the file to be written. The output file will use the warts(5)
format.

-O options
allows the behavior of sc_filterpolicy to be further tailored. The current choices
for this option are:
- impatient: order the systems found in the input-file so that those with the
most addresses are probed first, so that probing will complete as fast as
possible.
- incongruent: only report systems which are inferred to have an incongruent
filtering policy.
- trace: probe the addresses found in the input-file using traceroute, rather
than ping.
- tuples: signals that the input-file is formatted as tuples, rather than rows.
See the examples section for more information.

-p scamper-port
specifies the port on the local host where scamper(1) is accepting control socket
connections.

-r data-file
specifies the name of a previously collected filter policy data file, in warts(5)
format, to read and analyse.

-t probe-class
specifies the class of probes to send for each IP address in the input file. The
current choices for this option are:
- router: test ICMP, SSH, Telnet, HTTPS, HTTP, BGP, NTP, DNS, and SNMP.
- server: test ICMP, FTP, SSH, Telnet, MySQL, RDP, HTTPS, SMB, HTTP, NTP, DNS,
and SNMP.
- all: test ICMP, NetBIOS, MSSQL, FTP, SSH, Telnet, MySQL, RDP, HTTPS, SMB, VNC,
HTTP, BGP, NTP, DNS, and SNMP.

-T test
specifies adjustments to the test schedule from the supported application types.
Prefacing an application with + causes the application type to be added to the test
schedule, and prefacing an application with - causes the application type to be
removed from the test schedule.

-U scamper-unix
specifies the unix domain socket on the local host where scamper(1) is accepting
control socket connections.

EXAMPLES


sc_filterpolicy requires a scamper(1) instance listening on a port or unix domain socket for
commands in order to collect data:

scamper -P 31337

will start a scamper(1) instance listening on port 31337 on the loopback interface. To use
sc_filterpolicy to test the filtering policy of a set of routers specified in a file named
routers.txt and formatted as rows as follows:

foo.example.com 192.0.2.1 2001:DB8::1
bar.example.com 192.0.2.2 2001:DB8::2

the following command will test these routers for responsiveness to ICMP, SSH, Telnet,
HTTPS, HTTP, BGP, NTP, DNS, and SNMP probes, recording raw data into example-routers.warts:

sc_filterpolicy -p 31337 -a routers.txt -t router -o example-routers.warts

Including the name of each device in the input file is optional.

The following command will only test the routers for responsiveness to SSH:

sc_filterpolicy -p 31337 -a routers.txt -T +ssh -o example-ssh.warts

To use sc_filterpolicy to test the filtering policy of a set of servers specified in a file
named servers.txt and formatted as tuples as follows:

db.example.com 192.0.2.3
db.example.com 2001::DB8::3
corp.example.com 192.0.2.4
corp.example.com 2001::DB8::4

the following command will test these servers for responsiveness to ICMP, FTP, SSH, Telnet,
MySQL, RDP, HTTPS, SMB, HTTP, NTP, DNS, and SNMP probes, recording raw data into example-
servers.warts:

sc_filterpolicy -p 31337 -a servers.txt -t server -o example-servers.warts -O tuples

In an input file formatted as tuples, the name (or an identifier) for each device is
mandatory, and is used to ensure only one probe is sent to any one device at a time, and to
collate responses from different addresses to the same device for reporting.

Once raw data has been collected, sc_filterpolicy can be used to analyse the collected data.
For the example-routers.warts file, the following command dumps a summary of the data
collected for each router:

sc_filterpolicy -r example-routers.warts

: T
: e H
: I l T H S
: C S n T T B N D N
: M S e P T G T N M
: P H t S P P P S P
========================================
192.0.2.1 : O O O O O
2001:DB8::1 : O O O O O

192.0.2.2 : O X
2001:DB8::2 : O O

The first router is responsive (O) for ICMP, SSH, HTTP, DNS, and SNMP probes on all
addresses. The second router is responsive (O) to ICMP probes on both addresses is
unresponsive (X) to SSH on the IPv4 address, but is responsive (O) to SSH on the IPv6
address and possibly represents a filtering policy that is incongruent and requires
attention. Note that the empty cells in the table represent a router that was unresponsive
(X) to that protocol for all addresses tested; the cells are left empty to allow the user to
focus on open and incongruent application services.

The command:

sc_filterpolicy -O incongruent -r example-routers.warts

will only show routers with an incongruent filtering policy.

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