I need to do the SSH key audit for GitHub, but I am not sure how do find my RSA key fingerprint. I originally followed a guide to generate an SSH key on Linux.
What is the command I need to enter to find my current RSA key fingerprint?
function fingerprint() { ssh-keygen -lf $1 -E md5 } Then (after you source the bashrc) you can get a fingerprint with fingerprint ~/.ssh/key_file
; in the body, so use function fingerprint() { ssh-keygen -lf $1 -E md5; } instead.
Run the following command to retrieve the SHA256 fingerprint of your SSH key (-l means "list" instead of create a new key, -f means "filename"):
$ ssh-keygen -lf /path/to/ssh/key
So for example, on my machine the command I ran was (using RSA public key):
$ ssh-keygen -lf ~/.ssh/id_rsa.pub
2048 00:11:22:33:44:55:66:77:88:99:aa:bb:cc:dd:ee:ff /Users/username/.ssh/id_rsa.pub (RSA)
To get the GitHub (MD5) fingerprint format with newer versions of ssh-keygen, run:
$ ssh-keygen -E md5 -lf <fileName>
Bonus information:
ssh-keygen -lf also works on known_hosts and authorized_keys files.
To find most public keys on Linux/Unix/OS X systems, run
$ find /etc/ssh /home/*/.ssh /Users/*/.ssh -name '*.pub' -o -name 'authorized_keys' -o -name 'known_hosts'
(If you want to see inside other users' homedirs, you'll have to be root or sudo.)
The ssh-add -l is very similar, but lists the fingerprints of keys added to your agent. (OS X users take note that magic passwordless SSH via Keychain is not the same as using ssh-agent.)
The newer SSH commands will list fingerprints as a SHA256 Key.
For example:
ssh-keygen -lf ~/.ssh/id_dsa.pub
1024 SHA256:19n6fkdz0qqmowiBy6XEaA87EuG/jgWUr44ZSBhJl6Y (DSA)
If you need to compare it against an old fingerprint you also need to specify to use the MD5 fingerprint hashing function.
ssh-keygen -E md5 -lf ~/.ssh/id_dsa.pub
2048 MD5:4d:5b:97:19:8c:fe:06:f0:29:e7:f5:96:77:cb:3c:71 (DSA)
Also available: -E sha1
Update... YES...yes... I know... DSA keys for SSH should no longer be used, the older RSA key or newer ecliptic keys should be used instead.
To those 'admins' that keep editing the command I used in the above. STOP CHANGING IT! You make the command and resulting output mis-match!
ssh to show you the server's old MD5 fingerprint using ssh -o FingerprintHash=md5 example.org, as mentioned in this answer. (I was just searching for that, and this answer led me to that one, so I figure others might have a similar experience.)
To see your key on Ubuntu, just enter the following command on your terminal:
ssh-add -l
You will get an output like this: 2568 0j:20:4b:88:a7:9t:wd:19:f0:d4:4y:9g:27:cf:97:23 yourName@ubuntu (RSA)
If however you get an error like; Could not open a connection to your authentication agent.
Then it means that ssh-agent is not running. You can start/run it with: ssh-agent bash (thanks to @Richard in the comments) and then re-run ssh-add -l
ssh-agent bash and proceed with life. In life as always; ssh-agent isn't guaranteed as a consistent implementation on all systems.
A key pair (the private and public keys) will have the same fingerprint; so in the case you can't remember which private key belong to which public key, find the match by comparing their fingerprints.
The most voted answer by Marvin Vinto provides the fingerprint of a public SSH key file. The fingerprint of the corresponding private SSH key can also be queried, but it requires a longer series of step, as shown below.
Load the SSH agent, if you haven't done so. The easiest way is to invoke $ ssh-agent bash or $ ssh-agent tcsh (or another shell you use). Load the private key you want to test: $ ssh-add /path/to/your-ssh-private-key You will be asked to enter the passphrase if the key is password-protected. Now, as others have said, type $ ssh-add -l 1024 fd:bc:8a:81:58:8f:2c:78:86:a2:cf:02:40:7d:9d:3c you@yourhost (DSA) fd:bc:... is the fingerprint you are after. If there are multiple keys, multiple lines will be printed, and the last line contains the fingerprint of the last loaded key. If you want to stop the agent (i.e., if you invoked step 1 above), then simply type `exit' on the shell, and you'll be back on the shell prior to the loading of ssh agent.
I do not add new information, but hopefully this answer is clear to users of all levels.
ssh-add -l and ssh-keygen -l return the same fingerprint for a given keypair. Also, it should be a lowercase -l, not uppercase.
ssh-add -l and ssh-keygen -l return the same fingerprint for a given keypair. But I don't understand what was wrong with my original statements on first paragraph. I added a sentence to clarify.
ssh-agent. Assuming PRIVKEY has been set to the private key file, and PUBKEY has been set to the (initially nonexistent) public key file, do: ssh-keygen -y -f "${PRIVKEY}" > "${PUBKEY}" to regenerate the SSH public key, then ssh-keygen -E md5 -l -v -f "${PUBKEY}" if you want the MD5 hash or just ssh-keygen -l -v -f "${PUBKEY}" if you want the SHA-256 hash (SHA-256 being the default now).
Reproducing content from AWS forums here, because I found it useful to my use case - I wanted to check which of my keys matched ones I had imported into AWS
openssl pkey -in ~/.ssh/ec2/primary.pem -pubout -outform DER | openssl md5 -c
Where:
primary.pem is the private key to check
Note that this gives a different fingerprint from the one computed by ssh-keygen.
The fastest way if your keys are in an SSH agent:
$ ssh-add -L | ssh-keygen -E md5 -lf /dev/stdin
Each key in the agent will be printed as:
4096 MD5:8f:c9:dc:40:ec:9e:dc:65:74:f7:20:c1:29:d1:e8:5a /Users/cmcginty/.ssh/id_rsa (RSA)
$ ssh-add -l
will also work on Mac OS X v10.8 (Mountain Lion) - v10.10 (Yosemite).
It also supports the option -E to specify the fingerprint format so in case MD5 is needed (it's often used, e.g. by GitHub), just add -E md5 to the command.
man ssh-add the option -l is " Lists fingerprints of all identities currently represented by the agent"
On Windows, if you're running PuTTY/Pageant, the fingerprint is listed when you load your PuTTY (.ppk) key into Pageant. It is pretty useful in case you forget which one you're using.
https://i.stack.imgur.com/OxLZY.jpg
This is the shell function I use to get my SSH key finger print for creating DigitalOcean droplets:
fingerprint() {
pubkeypath="$1"
ssh-keygen -E md5 -lf "$pubkeypath" | awk '{ print $2 }' | cut -c 5-
}
Put it in your ~/.bashrc, source it, and then you can get the finger print as so:
$ fingerprint ~/.ssh/id_rsa.pub
d2:47:0a:87:30:a0:c0:df:6b:42:19:55:b4:f3:09:b9
Sometimes you can have a bunch of keys in your ~/.ssh directory, and don't know which matches the fingerprint shown by GitHub/Gitlab/etc.
Here's how to show the key filenames and MD5 fingerprints of all the keys in your ~/.ssh directory:
cd ~/.ssh
find . -type f -exec printf "\n{}\n" \; -exec ssh-keygen -E md5 -lf {} \;
(For what the parameters mean, refer to this answer about the find command.
Note that the private/public files that belong to one key have the same fingerprint, so you'll see duplicates.
If your SSH agent is running, it is
ssh-add -l
to list RSA fingerprints of all identities, or -L for listing public keys.
If your agent is not running, try:
ssh-agent sh -c 'ssh-add; ssh-add -l'
And for your public keys:
ssh-agent sh -c 'ssh-add; ssh-add -L'
If you get the message: 'The agent has no identities.', then you have to generate your RSA key by ssh-keygen first.
/etc/ssh/ssh_host_ed25519_key.pub. Second part of the question remains: any downside to using this auto generated key?
Google Compute Engine shows the SSH host key fingerprint in the serial output of a Linux instance. The API can get that data from GCE, and there is no need to log in to the instance.
I didn't find it anywhere else but from the serial output. I think the fingerprint should be in some more programmer-friendly place.
However, it seems that it depends on the type of an instance. I am using instances of Debian 7 (Wheezy) f1-micro.
If you need to obtain that from the private key do it:
ssh-keygen -y -f key > key.pub && ssh-keygen -lf key.pub
To check a remote SSH server prior to the first connection, you can give a look at www.server-stats.net/ssh/ to see all SHH keys for the server, as well as from when the key is known.
That's not like an SSL certificate, but definitely a must-do before connecting to any SSH server for the first time.
On Fedora I do locate ~/.ssh which tells me keys are at
/root/.ssh
/root/.ssh/authorized_keys
~/.ssh/id*.pub is) and want to get their fingerprints.
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.ssh/id_rsashould be the same as the one for.ssh/id_rsa.pub. So, you can use either one (and, if you're like me and love tab-completion, it makes the job take 2 fewer keystrokes. Efficiency!).