Mac Ssh Config File

Mac Ssh Config File
Ssh Config File Format
Ssh Config File Example
Mac Ssh Config File

Apr 05, 2011 If you use SSH even somewhat often, it would benefit you to setup a basic SSH config file. If you’re curious why, would you rather type something like this: ssh -p 6851 user@servername.domain.com. Enter in the following in the terminal: $ ssh-keygen -t rsa -b 4096 Accept the defaults, to save your public and private keys to /.ssh Open your public key (/.ssh/idrsa.pub) in a text editor (GEdit or Kate on Linux, TextEdit on Mac OS X) Launchpad & SSH When you use Launchpad and Bazaar, it likes to use the SSH keys to authenticate you. I am trying to configure certain git repo to use a specific public/private key to authenticate. This is inside /.ssh/config. Host Repo HostName bitbucket.org User git IdentityFile /.ssh/ynd LogLevel DEBUG And this is the log when trying to push to repo.

Before you begin

Using SSH public key authentication to connect to a remote system is a robust, more secure alternative to logging in with an account password or passphrase. SSH public key authentication relies on asymmetric cryptographic algorithms that generate a pair of separate keys (a key pair), one 'private' and the other 'public'. You keep the private key a secret and store it on the computer you use to connect to the remote system. Conceivably, you can share the public key with anyone without compromising the private key; you store it on the remote system in a .ssh/authorized_keys directory.

To use SSH public key authentication:

The remote system must have a version of SSH installed. The information in this document assumes the remote system uses OpenSSH. If the remote system is using a different version of SSH (for example, Tectia SSH), the process outlined below may not be correct.
The computer you use to connect to the remote server must have a version of SSH installed. This document includes instructions for generating a key pair with command-line SSH on a Linux or macOS computer, and with PuTTY on a Windows computer.
You need to be able to transfer your public key to the remote system. Therefore, you must either be able to log into the remote system with an established account username and password/passphrase, or have an administrator on the remote system add the public key to the ~/.ssh/authorized_keys file in your account.
Two-factor authentication using Two-Step Login (Duo) is required for access to the login nodes on IU research supercomputers, and for SCP and SFTP file transfers to those systems. SSH public key authentication remains an option for researchers who submit the 'SSH public key authentication to HPS systems' agreement (log into HPC everywhere using your IU username and passphrase), in which you agree to set a passphrase on your private key when you generate your key pair. If you have questions about how two-factor authentication may impact your workflows, contact the UITS Research Applications and Deep Learning team. For help, see Get started with Two-Step Login (Duo) at IU and Help for Two-Step Login (Duo).

Set up public key authentication using SSH on a Linux or macOS computer

To set up public key authentication using SSH on a Linux or macOS computer:

Log into the computer you'll use to access the remote host, and then use command-line SSH to generate a key pair using the RSA algorithm.
To generate RSA keys, on the command line, enter:
You will be prompted to supply a filename (for saving the key pair) and a password (for protecting your private key):
- Filename: To accept the default filename (and location) for your key pair, press Enter or Return without entering a filename.
  Alternatively, you can enter a filename (for example, my_ssh_key) at the prompt, and then press Enter or Return. However, many remote hosts are configured to accept private keys with the default filename and path (~/.ssh/id_rsa for RSA keys) by default. Consequently, to authenticate with a private key that has a different filename, or one that is not stored in the default location, you must explicitly invoke it either on the SSH command line or in an SSH client configuration file (~/.ssh/config); see below for instructions.
- Password: Enter a password that contains at least five characters, and then press Enter or Return. If you press Enter or Return without entering a password, your private key will be generated without password-protection.
  If you don't password-protect your private key, anyone with access to your computer conceivably can SSH (without being prompted for a password) to your account on any remote system that has the corresponding public key.
Your private key will be generated using the default filename (for example, id_rsa) or the filename you specified (for example, my_ssh_key), and stored on your computer in a .ssh directory off your home directory (for example, ~/.ssh/id_rsa or ~/.ssh/my_ssh_key).
The corresponding public key will be generated using the same filename (but with a .pub extension added) and stored in the same location (for example, ~/.ssh/id_rsa.pub or ~/.ssh/my_ssh_key.pub).
Use SFTP or SCP to copy the public key file (for example, ~/.ssh/id_rsa.pub) to your account on the remote system (for example, darvader@deathstar.empire.gov); for example, using command-line SCP:
You'll be prompted for your account password. Your public key will be copied to your home directory (and saved with the same filename) on the remote system.
Log into the remote system using your account username and password.
If the remote system is not configured to support password-based authentication, you will need to ask system administrators to add your public key to the ~/.ssh/authorized_keys file in your account (if your account doesn't have ~/.ssh/authorized_keys file, system administrators can create one for you). Once your public key is added to your ~/.ssh/authorized_keys file on the remote system, the setup process is complete, and you should now be able to SSH to your account from the computer that has your private key.
If your account on the remote system doesn't already contain a ~/.ssh/authorized_keys file, create one; on the command line, enter the following commands:
If your account on the remote system already has a ~/.ssh/authorized_keys file, executing these commands will not damage the existing directory or file.
On the remote system, add the contents of your public key file (for example, ~/id_rsa.pub) to a new line in your ~/.ssh/authorized_keys file; on the command line, enter:
You may want to check the contents of ~/.ssh/authorized_keys to make sure your public key was added properly; on the command line, enter:
You may now safely delete the public key file (for example, ~/id_rsa.pub) from your account on the remote system; on the command line, enter:
Alternatively, if you prefer to keep a copy of your public key on the remote system, move it to your .ssh directory; on the command line, enter:
Optionally, repeat steps 3-7 to add your public key to other remote systems that you want to access from the computer that has your private key using SSH public key authentication.
You now should be able to SSH to your account on the remote system (for example, username@host2.somewhere.edu) from the computer (for example, host1) that has your private key (for example, ~/.ssh/id_rsa):
- If your private key is password-protected, the remote system will prompt you for the password or passphrase (your private key password/passphrase is not transmitted to the remote system):
- If your private key is not password-protected, the remote system will place you on the command line in your home directory without prompting you for a password or passphrase:
If the private key you're using does not have the default name, or is not stored in the default path (not ~/.ssh/id_rsa), you must explicitly invoke it in one of two ways:
- On the SSH command line: Add the -i flag and the path to your private key.
  For example, to invoke the private key host2_key, stored in the ~/.ssh/old_keys directory, when connecting to your account on a remote host (for example, username@host2.somewhere.edu), enter:
- In an SSH client configuration file: SSH gets configuration data from the following sources (in this order):
  1. From command-line options
  2. From the user's client configuration file (~/.ssh/config), if it exists
  3. From the system-wide client configuration file (/etc/ssh/ssh_config)
  The SSH client configuration file is a text file containing keywords and arguments. To specify which private key should be used for connections to a particular remote host, use a text editor to create a ~/.ssh/config that includes the Host and IdentityFile keywords.
  For example, for connections to host2.somewhere.edu, to make SSH automatically invoke the private key host2_key, stored in the ~/.ssh/old_keys directory, create a ~/.ssh/config file with these lines included:
  Once you save the file, SSH will use the specified private key for future connections to that host.
  You can add multiple Host and IdentityFile directives to specify a different private key for each host listed; for example:
  Alternatively, you can use a single asterisk ( * ) to provide global defaults for all hosts (specify one private key for several hosts); for example:
  For more about the SSH client configuration file, see the OpenSSH SSH client configuration file on the web or from the command line (man ssh_config).

Set up public key authentication using PuTTY on a Windows 10 or Windows 8.x computer

The PuTTY command-line SSH client, the PuTTYgen key generation utility, the Pageant SSH authentication agent, and the PuTTY SCP and SFTP utilities are packaged together in a Windows installer available under The MIT License for free download from the PuTTY development team.

After installing PuTTY:

Launch PuTTYgen.
In the 'PuTTY Key Generator' window, under 'Parameters':
- For 'Type of key to generate', select RSA. (In older versions of PuTTYgen, select SSH2-RSA.)
- For 'Number of bits in a generated key', leave the default value (2048).
Under 'Actions', click Generate.
When prompted, use your mouse (or trackpad) to move your cursor around the blank area under 'Key'; this generates randomness that PuTTYgen uses to generate your key pair.
When your key pair is generated, PuTTYgen displays the public key in the area under 'Key'. In the 'Key passphrase' and 'Confirm passphrase' text boxes, enter a passphrase to passphrase-protect your private key.
If you don't passphrase-protect your private key, anyone with access to your computer will be able to SSH (without being prompted for a passphrase) to your account on any remote system that has the corresponding public key.
Save your public key:
1. Under 'Actions', next to 'Save the generated key', click Save public key.
2. Give the file a name (for example, putty_key), select a location on your computer to store it, and then click Save.
Save your private key:
1. Under 'Actions', next to 'Save the generated key', click Save private key.
  If you didn't passphrase-protect your private key, the utility will ask whether you're sure you want to save it without a passphrase. Click Yes to proceed or No to go back and create a passphrase for your private key.
2. Keep 'Save as type' set to PuTTY Private Key Files (*.ppk), give the file a name (for example, putty_private_key), select a location on your computer to store it, and then click Save.
3. If you wish to connect to a remote desktop system such as Research Desktop (RED), click Conversions > Export OpenSSH key, give the file a name (for example, putty_rsa), select a location on your computer to store it, and then click Save.
Log into the remote system using your account username and password.
If the remote system does not support password-based authentication, you will need to ask system administrators to add your public key to the ~/.ssh/authorized_keys file in your account (if your account doesn't have ~/.ssh/authorized_keys file, system administrators can create one for you). Once your public key is added to your account's ~/.ssh/authorized_keys file on the remote system...
If your account on the remote system doesn't already contain a ~/.ssh/authorized_keys file, create one; on the command line, enter the following commands:
If your account on the remote system already has ~/.ssh/authorized_keys, executing these commands will not damage the existing directory or file.
On your computer, in the PuTTYgen utility, copy the contents of the public key (displayed in the area under 'Key') onto your Clipboard. Then, on the remote system, use your favorite text editor to paste it onto a new line in your ~/.ssh/authorized_keys file, and then save and close the file.
On your computer, open the Pageant SSH authentication agent. This utility runs in the background, so when it opens, you should see its icon displayed in the Windows notification area.
In the Windows notification area, right-click on the Pageant icon, select Add Key, navigate to the location where you saved your private key (for example, putty_private_key.ppk), select the file, and then click Open.
If your private key is passphrase-protected, Pageant will prompt you to enter the passphrase; enter the passphrase for your private key, and then click OK.
If your private key is not passphrase-protected, Pageant will add your private key without prompting you for a passphrase.
Either way, Pageant stores the unencrypted private key in memory for use by PuTTY when you initiate an SSH session to the remote system that has your public key.
On your computer, open the PuTTY SSH client:
1. On the Session screen:
  - Under 'Host Name (or IP address)', enter your username coupled with the hostname of the remote server that has your public key; for example:
  - Under 'Connection type', make sure SSH is selected.
2. In the 'Category' list on the left, navigate to the Auth screen (Connection > SSH > Auth). On the Auth screen, under 'Authentication methods', select Attempt authentication using Pageant.
3. Return to the Session screen, and under 'Saved Sessions', enter a name (for example, Deathstar), and then click Save.
4. Click Open to connect to your account on the remote system. With Pageant running in the background, PuTTY will retrieve the unencrypted private key automatically from Pageant and use it to authenticate. Because Pageant has your private key's passphrase saved (if applicable), the remote system will place you on the command line in your account without prompting you for the passphrase.
Technically, at this point, the setup is complete. In the future, whenever you log into your Windows desktop, you can run Pageant, add the private key, and then use PuTTY to SSH to any remote resource that has your public key. Alternatively, you can create a shortcut in your Windows Startup folder to launch Pageant and load your private key automatically whenever you log into your desktop. For instructions, finish the rest of the following steps.
Open your Startup folder. Press Win-r, and in the 'Open' field, type shell:startup, and then press Enter.
Right-click inside the Startup folder, and then select New and Shortcut.
In the 'Type the location of the item' text box, enter the path to the Pageant executable (pageant.exe) followed by the path to your private key file (for example, putty_private_key.ppk); enclose both paths in double quotes; for example:
Click Next, and then, in the 'Type a name for this shortcut' text box, enter a name for the shortcut (for example, PAGEANT).
Click Finish.

The next time you log into your Windows desktop, Pageant will start automatically, load your private key, and (if applicable) prompt you for the passphrase.

More experienced users know that you can connect to a Linux server quite easily using a variety of SSH (Secure Shell) clients. That's all well and good but what about if you need to use some tool that has a GUI?

The answer is to use X11 forwarding. X11 forwarding is a mechanism that allows a user to start up remote applications but forward the application display to your local Windows machine.

Mac Ssh Config File

X11 Forwarding on Linux

There are a few minor changes needed on your Linux box to enable X11 forwarding. In this basic example I am using a standard CentOS 6.5 installation with GNOME installed. Other Linux distributions will have a very similar SSH daemon configuration. The SSH configuration file is located at /etc/ssh/sshd_config. Locate and uncomment (or add) the following lines:

X11Forwarding yes

X11UseForwarding yes

Ssh Config File Format

These items allow the traffic to be forwarded over to your computer from the host and also allow forwarding to be used. X11 forwarding can be configured on a per user basis. There are additional options that can be configured for X11 forwarding, but those go beyond the scope of this introductory article. The system can also be configured to allow multiple X11 forwarded users, but each user will have to use a separate port range.

Once the config file's modifications have been made to your Linux system, the SSH service will need to be restarted to effect the revised configuration. Restart the services by using the command:

service sshd restart

All being well, the sshd service will be fully restarted. As a funny little test, install 'xeyes.' Use the command:

yum -y install xeyes.

It is also prudent to check that the firewall is not blocking the forwarded requests. Iptables' configuration may need to be adjusted if they are. To turn off Iptables on a temporary basis, you can use the command:

service iptables stop

On the Windows guest, the first requirement is to install PuTTY, which provides the mechanism to forward the display data between the host (the Linux server) and guest (your Windows machine). If you don't already have PuTTY, download the PuTTY application from the PuTTY website and install it. I'd suggest using the full download package.

There are many display managers you can use. In this example we are using Xming, which is free and downloadable from sourceforge.net. Download Xming to your Windows PC and run the setup. During installation, you might see a number of options; I'd suggest going with the defaults.

Ssh Config File Example

Once Xming is installed you are ready to try out X11 forwarding. You will need to allow the Windows firewall to be modified to allow Xming forwarding to work. This should automatically pop up and request the required access.

There are also two settings in PuTTY that need to be changed to make X11 forwarding work. Open PuTTY as normal, filling in the IP address or DNS alias name. Before clicking OK to connect to the server, go to the connection menu in PuTTY, select SSH, X11 and tick the box X11 forwarding. The xdisplay location should also be set to localhost:0, which is basically the display you are working on currently.

You can now connect to the Linux server using PuTTY. At the command line, run the command: xeyes. Hopefully a silly pair of comedy eyes will pop up that follow your cursor around the screen. To keep the terminal available for additional commands after you launch the X11 forwarded application, use an & at the end of the command to prevent tying up the terminal in question.

Now that you have seen it in action, it is perhaps time to share how it all works.

No matter which GUI you use on your Linux host, GNOME or KDE, they both have what is termed a xdisplay manager that underlies the GUI portion of the display. It is a network protocol that was designed from the outset to allow items to be forwarded to whichever destination is required.

X11 Forwarding on Mac

X11 forwarding on Mac is just as easy. Download Quartz and install it as you would any other Mac package. Quartz is another instance of display management. To start using X11 forwarding to your Mac, use the -X switch. In other words, the ssh command would look like this:

Mac Ssh Config File

ssh -X root@mylinuxhost

To test it just type in the command xclock or xeyes, and, as if by magic, you get a basic clock or aforementioned eyes on your desktop.