SSH-KEYSCAN(1) | General Commands Manual | SSH-KEYSCAN(1) |
NAME¶
ssh-keyscan
—
gather SSH public keys from servers
SYNOPSIS¶
ssh-keyscan |
[-46cDHqv ] [-f
file] [-O
option] [-p
port] [-T
timeout] [-t
type] [host |
addrlist namelist] |
DESCRIPTION¶
ssh-keyscan
is a utility for gathering the
public SSH host keys of a number of hosts. It was designed to aid in
building and verifying ssh_known_hosts files, the
format of which is documented in sshd(8).
ssh-keyscan
provides a minimal interface suitable
for use by shell and perl scripts.
ssh-keyscan
uses non-blocking socket I/O
to contact as many hosts as possible in parallel, so it is very efficient.
The keys from a domain of 1,000 hosts can be collected in tens of seconds,
even when some of those hosts are down or do not run
sshd(8). For scanning, one does not need login access to
the machines that are being scanned, nor does the scanning process involve
any encryption.
Hosts to be scanned may be specified by hostname, address or by CIDR network range (e.g. 192.168.16/28). If a network range is specified, then all addresses in that range will be scanned.
The options are as follows:
-4
- Force
ssh-keyscan
to use IPv4 addresses only. -6
- Force
ssh-keyscan
to use IPv6 addresses only. -c
- Request certificates from target hosts instead of plain keys.
-D
- Print keys found as SSHFP DNS records. The default is to print keys in a format usable as a ssh(1) known_hosts file.
-f
file- Read hosts or “addrlist namelist” pairs from
file, one per line. If ‘-’ is supplied
instead of a filename,
ssh-keyscan
will read from the standard input. Names read from a file must start with an address, hostname or CIDR network range to be scanned. Addresses and hostnames may optionally be followed by comma-separated name or address aliases that will be copied to the output. For example:192.168.11.0/24 10.20.1.1 happy.example.org 10.0.0.1,sad.example.org
-H
- Hash all hostnames and addresses in the output. Hashed names may be used normally by ssh(1) and sshd(8), but they do not reveal identifying information should the file's contents be disclosed.
-O
option- Specify a key/value option. At present, only a single option is supported:
hashalg
=algorithm- Selects a hash algorithm to use when printing SSHFP records using the
-D
flag. Valid algorithms are “sha1” and “sha256”. The default is to print both.
-p
port- Connect to port on the remote host.
-q
- Quiet mode: do not print server host name and banners in comments.
-T
timeout- Set the timeout for connection attempts. If timeout seconds have elapsed since a connection was initiated to a host or since the last time anything was read from that host, the connection is closed and the host in question considered unavailable. The default is 5 seconds.
-t
type- Specify the type of the key to fetch from the scanned hosts. The possible values are “ecdsa”, “ed25519”, “ecdsa-sk”, “ed25519-sk”, or “rsa”. Multiple values may be specified by separating them with commas. The default is to fetch all the above key types.
-v
- Verbose mode: print debugging messages about progress.
If an ssh_known_hosts file is constructed using
ssh-keyscan
without verifying the keys, users will
be vulnerable to man in the
middle attacks. On the other hand, if the security model allows such
a risk, ssh-keyscan
can help in the detection of
tampered keyfiles or man in the middle attacks which have begun after the
ssh_known_hosts file was created.
FILES¶
/etc/ssh/ssh_known_hosts
EXAMPLES¶
Print the RSA host key for machine hostname:
$ ssh-keyscan -t rsa
hostname
Search a network range, printing all supported key types:
$ ssh-keyscan
192.168.0.64/25
Find all hosts from the file ssh_hosts which have new or different keys from those in the sorted file ssh_known_hosts:
$ ssh-keyscan -t rsa,ecdsa,ed25519 -f ssh_hosts | \ sort -u - ssh_known_hosts | diff ssh_known_hosts -
SEE ALSO¶
Using DNS to Securely Publish Secure Shell (SSH) Key Fingerprints, RFC 4255, 2006.
AUTHORS¶
David Mazieres <dm@lcs.mit.edu> wrote the initial version, and Wayne Davison <wayned@users.sourceforge.net> added support for protocol version 2.
June 17, 2024 | Debian |