• Linux Generate Ssh Key For Different User Id
• Linux Generate Ssh Key Pair For User

SSH keys offer a highly secure manner of logging into a server with SSH as against mere dependence on a password. While a password stands the risk of being finally cracked, SSH keys are rather impossible to decipher using brute force. Ssh keys make possible fast, secure, and passwordless login to a server. Plus it's easy to manage multiple keys with a config file. First step: check for SSH keys $ ls -al /.ssh # This shows all your keys, if there is any If you don’t have an /.ssh directory, go ahead and make it: $ mkdir /.ssh Second step: setup an ssh key. Sep 19, 2017  Generate a key pair using puttygen save the private key to your hard disk. Copy the public key then log in to your droplet as root switch to your user su user then create a directory called.ssh in your home directory and create a file inside it called.authorizedkeys and paste the public key there. Anything.pub is the public key, which you could append to the user's /.ssh/authorizedkeys on any destination server. The other file, just called anything is the private key and therefore should be stored safely for the user. The default location would be username/.ssh/idrsa (here named idrsa, which is default for rsa keys).

Apr 14, 2020  As a Linux administrator, “ssh” is one of those commands you can’t live without. It uses the SSH (Secure Shell) protocol to provide a secure, encrypted connection between the two different hosts. You will find yourself employing it frequently to connect to a remote server. It can also be used to generate key pairs or securely transfer files. Nov 10, 2011  How to Generate A Public/Private SSH Key Linux By Damien – Posted on Nov 10, 2011 Nov 18, 2011 in Linux If you are using SSH frequently to connect to a remote host, one of the way to secure the connection is to use a public/private SSH key so no password is transmitted over the network and it can prevent against brute force attack. I am trying to automate the process to order a linux instance and also handle the ssh keys on the instance-level. Is it possible to generate a ssh key file for another user with the gcloud command line (without ssh'ing to it, that auto generate keys).

SSH is a cryptographic network protocol which is used to securely connect to a host over an unsecured connection. By default, any Linux operating system supports SSH; hence using a third party client is unnecessary like in the Windows platform. SSH protocol requires a server which accepts SSH connections, and a client which sends the requests to connect to the host. The typical usage of SSH protocol is remote login, remote commanding, and file transfer. Nowadays many Linux based servers make use of SSH protocol to tighten its security. A notable part of the SSH protocol is its authentication key pair which is used to identify and authorize users. So, this article demonstrates what are they, how to generate them, and how to utilize them to protect the server, and other relevant information.

How to Generate Keys and What Are They?

Generating SSH key pair consists of two basic phases. The first phase is generating the key pair on the local side, the second phase is copying it to the remote host, registering in the server and configuring the ssh daemon to make it useful. A key pair consists of two files, id_rsa and id_rsa.pub which are private and public keys respectively. The public key resides on the server side, whereas the private key is used when accessing it over SSH protocol.

In the following example ssh-keygen command is used to generate the key pair. When generating the key pair, the command prompt asks a name for a key, if it’s omitted the default name – id_rsa is used instead.

How to Use the Keys?

Once the key pair is generated on the local side through terminal window, the next step is to prepare them for employing for authentication purpose. The most convenient way to upload and register the public key in the server is using the ssh-copy-id command, what it does is copy the public key to the given user account located in the given host. As seen in the following example when the ssh-copy-id, username, the host name along with the password are all given the public key is copied and registered on the server side. If the username is root, the public key is uploaded to /root/.ssh/ on the server.

That being said, the server still isn’t protected with the SSH key pair as it’s not configured properly. Anyone can still access to the server if the password of the user account is known; hence the password has to be disabled while enabling the key pair verification. To disable the password authentication, edit /etc/ssh/sshd_config file where the settings for the SSH daemon are contained. In the file, the PasswordAuthentication has to be altered to NO, ChallengeResponseAuthentication should be altered to No as well. As the next step the sshd daemon has to be restarted for changes to take effect, which can be done with sudo systemctl reload sshd. Finally, the new key pair authentication method can be tested by giving ssh username@username in the terminal window.

Theory of The Keys and How They Work

The key pair is a part of the SSH standard which is used to connect to a remote host over an unsecured network. As stated earlier, the key pair consists of two keys – public and private keys which are uploaded to the server side and kept on the client side respectively. The public key is denoted by .pub extension, and the private key doesn’t have any extension.

When the user is accessing the server, the SSH daemon installed on the server side requests the user for the SSH private key, if it’s provided the private key is compared against the public key in the server. If the private key corresponds to the public key, authentication is successful, otherwise it rejects the login request. By default, the key pair uses RSA which is a cryptographic algorithm to generate the keys. But there are other popular algorithms as well, such as DSA and ECDSA.

ssh-keygen Command Line Options

ssh-keygen is used to generate keys and it provides a number of options to ease the key pair management, tighten the security and increase the flexibility. The following options are some of the prominent options which may come handy when managing a server.

Passphrase

The Passphrase option is used to provide a secondary protection when a key pair is used to authenticate the user. What it does is to secure the private key with a password and consequently the user is required to provide the passphrase when logging in to the remote host. It asks during the key pair creation.

Change the Bit Strength

Bit strength refers to the key pair’s key size which defines how strong the key pair is. Nowadays the standard size is 2048 bits, but it used to be 1024 bits and is no longer acceptable as it’s speculated that many powerful hardware are capable of cracking anything up to 1024 bits or even above given the right amount of time. Fortunately, ssh-keygen currently supports higher bit strength values such as 2048 and its next fashionable number 4096 which is recommended if it’s possible due to the large bit strength. The bit strength value can be adjusted with –b command, if it’s omitted the default value – 1024 or 2048 depending on the ssh-keygen is used.

Comment Public Key

Commenting is applicable to the public key, and is useful in organizing the keys if there are a large number of keys involved. The typical usage of commenting is when multiple admins use a server, but still want to distinguish one key from another. The following format is used to add a comment when generating a key pair.

Change Passphrase of a Private Key

Like adding a passphrase when generating a key pair, the existing passphrase can also be changed. Since the passphrase is applicable to the private key which resides on the client side, the command has to be executed on the client side along with the name of the private key. This option takes 3 parameters, old password, new password and the private key to apply the changes.

Change the Cryptographic Algorithm

The Algorithm defines how the information in the key pair is encrypted in order to verify each other when the connection is being established. Ssh-keygen supports several popular algorithm types which are RSA, ECDSA, DSA, ED25519 and RSA1. Nowadays the popular algorithm among many servers is RSA due to its wide spread usage and relatively good security, however it’s currently being upgraded to the newer version ECDSA which is much lighter, and has a low bit value with a high security compared to RSA. ED25519 is the newest version among these, and therefore not many clients support it, but still server side implementation is possible at the moment. DSA is the oldest version among all these algorithms, and is no longer employed in most of the hosts as it’s not secure anymore. According to OpenSSH 7 standard the support for DSA will no longer be given. The format to use the algorithm is as following.

SSH Key Gen Video Demonstration

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Password authentication is the default method most SSH (Secure Shell) clients use to authenticate with remote servers, but it suffers from potential security vulnerabilities, like brute-force login attempts. An alternative to password authentication is public key authentication, in which you generate and store on your computer a pair of cryptographic keys and then configure your server to recognize and accept your keys. Using key-based authentication offers a range of benefits:

• Key-based login is not a major target for brute-force hacking attacks.

• If a server that uses SSH keys is compromised by a hacker, no authorization credentials are at risk of being exposed.

• Because a password isn’t required at login, you are able to able to log in to servers from within scripts or automation tools that you need to run unattended. For example, you can set up periodic updates for your servers with a configuration management tool like Ansible, and you can run those updates without having to be physically present.

This guide will explain how the SSH key login scheme works, how to generate an SSH key, and how to use those keys with your Linode.

Note

How SSH Keys Work

SSH keys are generated in pairs and stored in plain-text files. The key pair (or keypair) consists of two parts:

• A private key, usually named id_rsa. The private key is stored on your local computer and should be kept secure, with permissions set so that no other users on your computer can read the file.

  Caution

• A public key, usually named id_rsa.pub. The public key is placed on the server you intend to log in to. You can freely share your public key with others. If someone else adds your public key to their server, you will be able to log in to that server.

When a site or service asks for your SSH key, they are referring to your SSH public key (id_rsa.pub). For instance, services like GitHub and Gitlab allow you to place your SSH public key on their servers to streamline the process of pushing code changes to remote repositories.

The authorized_keys File

In order for your Linode to recognize and accept your key pair, you will need to upload your public key to your server. More specifically, you will need to upload your public key to the home directory of the user you would like to log in as. If you would like to log in to more than one user on the server using your key pair, you will need to add your public key to each of those users.

To set up SSH key authentication for one of your server’s users, add your public key to a new line inside the user’s authorized_keys file. This file is stored inside a directory named .ssh/ under the user’s home folder. A user’s authorized_keys file can store more than one public key, and each public key is listed on its own line. If your file contains more than one public key, then the owner of each key listed will be able to log in as that user.

Granting Someone Else Access to your Server

To give someone else access to your server’s user, simply add their public key on a new line in your authorized_keys file, just as you would add your own. To revoke access for that person, remove that same line and save the changes.

Challenge-Response

When logging in to a server using SSH, if there is a public key on file on that server, the server will create a challenge. This challenge will be crafted in such a way that only the holder of the private SSH key will be able to decipher it.

This challenge-response action happens without any user interaction. If the person attempting to log in has the corresponding private key, then they will be safely logged in. If not, the login will either fail or fall back to a password-based authentication scheme.

SSH Key Passphrases

You can optionally provide an additional level of security for your SSH keys by encrypting them with a passphrase at the time of creation. When you attempt to log in using an encrypted SSH key, you will be prompted to enter its passphrase. This is not to be confused with a password, as this passphrase only decrypts the key file locally and is not transferred over the Internet as a password might be.

If you’d like to set up your logins so that they require no user input, then creating a passphrase might not be desirable, but it is strongly recommended nevertheless.

Linux and macOS

Generate a Key Pair

Perform the steps in this section on your local machine.

1. Create a new key pair.

   Caution

   This command will overwrite an existing RSA key pair, potentially locking you out of other systems.

   If you’ve already created a key pair, skip this step. To check for existing keys, run ls ~/.ssh/id_rsa*.

   If you accidentally lock yourself out of the SSH service on your Linode, you can still use the Lish console to login to your server. After you’ve logged in via Lish, update your authorized_keys file to use your new public key. This should re-establish normal SSH access.

   The -b flag instructs ssh-keygen to increase the number of bits used to generate the key pair, and is suggested for additional security.

2. Press Enter to use the default names id_rsa and id_rsa.pub in the /home/your_username/.ssh directory before entering your passphrase.

3. While creating the key pair, you will be given the option to encrypt the private key with a passphrase. This means that the key pair cannot be used without entering the passphrase (unless you save that passphrase to your local machine’s keychain manager). We suggest that you use the key pair with a passphrase, but you can leave this field blank if you don’t want to use one.

Upload your Public Key

There are a few different ways to upload your public key to your Linode from Linux and macOS client systems:

Using ssh-copy-id

ssh-copy-id is a utility available on some operating systems that can copy a SSH public key to a remote server over SSH.

1. To use ssh-copy-id, pass your username and the IP address of the server you would like to access:

2. You’ll see output like the following, and a prompt to enter your user’s password:

3. Verify that you can log in to the server with your key.

Using Secure Copy (scp)

Secure Copy (scp) is a tool that copies files from a local computer to a remote server over SSH:

Caution

1. Connect to your server via SSH with the user you would like to add your key to:

2. Create the ~/.ssh directory and authorized_keys file if they don’t already exist:

3. Give the ~/.ssh directory and authorized_keys files appropriate file permissions:

4. In another terminal on your local machine, use scp to copy the contents of your SSH public key (id_rsa.pub) into the authorized_keys file on your server. Substitute in your own username and your server’s IP address:

5. Verify that you can log in to the server with your key.

Manually Copy an SSH Key

You can also manually add an SSH key to a server:

1. Begin by copying the contents of your public SSH key on your local computer. You can use the following command to output the contents of the file:

   You should see output similar to the following:

   Note that the public key begins with ssh-rsa and ends with [email protected].

2. Once you have copied that text, connect to your server via SSH with the user you would like to add your key to:

3. Create the ~/.ssh directory and authorized_keys file if they don’t already exist:

4. Give the ~/.ssh directory and authorized_keys files appropriate file permissions:

5. Open the authorized_keys file with the text editor of your choice (nano, for example). Then, paste the contents of your public key that you copied in step one on a new line at the end of the file.

6. Save and close the file.

   Note

   If you initially logged into the server as root but edited the authorized_keys file of another user, then the .ssh/ folder and authorized_keys file of that user may be owned by root. Set that other user as the files’ owner:

7. Verify that you can log in to the server with your key.

Connect to the Remote Server

1. SSH into the server from your local machine:

2. If you chose to use a passphrase when creating your SSH key, you will be prompted to enter it when you attempt to log in. Depending on your desktop environment, a window may appear:

   Caution

   Do not allow the local machine to remember the passphrase in its keychain unless you are on a private computer which you trust.

   You may also see the passphrase prompt at your command line:

3. Enter your password. You should see the connection establish in the local terminal.

Windows

The following instructions use the PuTTY software to connect over SSH, but other options are available on Windows too.

Generate a Key Pair with PuTTY

1. Download PuTTYgen (puttygen.exe) and PuTTY (putty.exe) from the official site.

2. Launch puttygen.exe. The RSA key type at the bottom of the window is selected by default for an RSA key pair but ED25519 (EdDSA using Curve25519) is a comparable option if your remote machine’s SSH server supports DSA signatures. Do not use the SSH-1(RSA) key type unless you know what you’re doing.

3. Increase the RSA key size from 2048 bits 4096 and click Generate:

4. PuTTY uses the random input from your mouse to generate a unique key. Once key generation begins, keep moving your mouse until the progress bar is filled:

5. When finished, PuTTY will display the new public key. Right-click on it and select Select All, then copy the public key into a Notepad file.

   Or its affiliates. SEGA and the SEGA logo are either registered trademarks or trademarks of SEGA Holdings Co., Ltd. Football manager 2009 activation key. SEGA is registered in the U.S. Developed by Sports Interactive Limited.

6. Save the public key as a .txt file or some other plaintext format. This is important–a rich text format such as .rtf or .doc can add extra formatting characters and then your private key won’t work:

7. Enter a passphrase for the private key in the Key passphrase and Confirm passphrase text fields. Important: Make a note of your passphrase, you’ll need it later:

8. Click Save private key. Choose a file name and location in Explorer while keeping the ppk file extension. If you plan to create multiple key pairs for different servers, be sure to give them different names so that you don’t overwrite old keys with new:

Manually Copy the SSH Key with PuTTY

1. Launch putty.exe. Find the Connection tree in the Category window, expand SSH and select Auth. Click Browse and navigate to the private key you created above:

2. Scroll back to the top of the Category window and click Session. Enter the hostname or IP address of your Linode. PuTTY’s default TCP port is 22, the IANA assigned port for for SSH traffic. Change it if your server is listening on a different port. Name the session in the Saved Sessions text bar and click Save:

3. Click the Open button to establish a connection. You will be prompted to enter a login name and password for the remote server.

4. Once you’re logged in to the remote server, configure it to authenticate with your SSH key pair instead of a user’s password. Create an .ssh directory in your home directory on your Linode, create a blank authorized_keys file inside, and set their access permissions:

5. Open the authorized_keys file with the text editor of your choice (nano, for example). Then, paste the contents of your public key that you copied in step one on a new line at the end of the file.

6. Save, close the file, and exit PuTTY.

7. Verify that you can log in to the server with your key.

   This article shows you how to quickly generate and use an SSH public-private key file pair for Linux VMs. 4 minutes to read.In this articleWith a secure shell (SSH) key pair, you can create virtual machines (VMs) in Azure that use SSH keys for authentication, eliminating the need for passwords to sign in. You can complete these steps with the Azure Cloud Shell, a macOS or Linux host, the Windows Subsystem for Linux, and other tools that support OpenSSH. Quick steps: Create and use an SSH public-private key pair for Linux VMs in Azure. Ssh generate key pair mac.

Using WinSCP

Linux Generate Ssh Key For Different User Id

Uploading a public key from Windows can also be done using WinSCP:

Caution

1. In the login window, enter your Linode’s public IP address as the hostname, the user you would like to add your key to, and your user’s password. Click Login to connect.

2. Once connected, WinSCP will show two file tree sections. The left shows files on your local computer and the right shows files on your Linode. Using the file explorer on the left, navigate to the file where you saved your public key in Windows. Select the public key file and click Upload in the toolbar above.

3. You’ll be prompted to enter a path on your Linode where you want to upload the file. Upload the file to /home/your_username/.ssh/authorized_keys.

4. Verify that you can log in to the server with your key.

Connect to the Remote Server with PuTTY

Linux Generate Ssh Key Pair For User

Start PuTTY and Load your saved session. You’ll be prompted to enter your server user’s login name as before. However, this time you will be prompted for your private SSH key’s passphrase rather than the password for your server’s user. Enter the passphrase and press Enter.

Troubleshooting

If your SSH connections are not working as expected, or if you have locked yourself out of your system, review the Troubleshooting SSH guide for troubleshooting help.

Upload your SSH Key to the Cloud Manager

It is possible to provision each new Linode you create with an SSH public key automatically through the Cloud Manager.

1. Log in to the Cloud Manager.

2. Click on your username at the top right hand side of the page. Then click on My Profile in the dropdown menu that appears:

   Note

   If you are viewing the Cloud Manager in a smaller browser window or on a smaller device, then the My Profile link will appear in the sidebar links. To view the sidebar links, click on the disclosure button to the left of the blue Create button at the top of the page.

3. From the My Profile page, select the SSH Keys tab, and then click Add a SSH Key:

4. Create a label for your key, then paste in the contents of your public SSH key (id_rsa.pub):

5. Click Add Key.

6. When you next create a Linode you’ll be given the opportunity to include your SSH key in the Linode’s creation. This key will be added to the root user of the new Linode.

   In the Create Linode form, select the SSH key you’d like to include. This field will appear below the Root Password field:

Next Steps

After you set up your SSH keys and confirm they are working as expected, review the How to Secure Your Server guide for instructions on disabling password authentication for your server.

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This guide is published under a CC BY-ND 4.0 license.