- 1 SSH Configuration
- 2 Using SSH and SFTP
- 3 SSH Server
- 4 Accessing your EC2 Instance via SSH
Secure SHell, or SSH, is the leading interface for connecting from your local computer to something on the cloud. You will be using exclusively SSH to execute commands and upload files to your cloud instance. If you use a Git hosting service like BitBucket or Github, you will need SSH in order to save your changes there as well.
This section discusses how to set up your computer and your instance for SSH. You need to do this only once.
SSH can work using password-based authentication, but it is more common nowadays, and also more secure, to use public and private keys, also known as a key pair.
Here's how it works. You have a private copy of your key, called your private key. Servers to which you want to connect have an analog to your private key called your public key. When you attempt to connect to a server using your private key, the server checks to see if any of its public keys "fits" your private key, and if it finds a match, it lets you in.
You can think of the private key as the "key" and the public key as the "lock".
Creating an SSH Key Pair
You should create your own SSH Key Pair. You will keep the private key on your own computer, and you will upload the public key to all places to which you need to connect.
To generate a key pair, open Terminal or Cygwin and run the following command:
Keep the default location. For the purposes of this course, you do not need to enter a passphrase, although you would probably want one in real life.
Your keys should have been created in ~/.ssh. Check to make sure they exist using the ls command:
$ ls ~/.ssh id_rsa id_rsa.pub
id_rsa is your private key, and id_rsa.pub is your public key. Let's look at the public signature of your key pair:
$ cat ~/.ssh/id_rsa.pub ssh-rsa SomeLongGibberishStringOfCharacters
We will need this later.
Cygwin Only: In order to make the SSH agent run when you start Cygwin, you need to add a couple of lines to your .bashrc file:
$ echo "eval `ssh-agent -s`; ssh-add" >> ~/.bashrc # Cygwin only $ source ~/.bashrc # reload the Bash shell
Connecting to Your Cloud Instance
When you first created your EC2 instance, you downloaded a *.pem file. This is the private key for the default user (ubuntu on Ubuntu or ec2-user on AMI). We need use this key to connect to your instance using the default user, at which point we will create a new custom user. We will give that new user the public key that you created in the previous step. You will then be able to log into your custom user using your personal key pair, so you won't need the default user again (although you should keep the *.pem file around just in case).
Logging In as the Default User
To connect to the default user on your Amazon EC2 instance, run this command in Terminal or Cygwin:
$ ssh -i /path/to/default-privatekey.pem email@example.com # or ec2-user@... for AMI
If you get this scary-looking warning:
@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ @ WARNING: UNPROTECTED PRIVATE KEY FILE! @ @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
…then you need to correctly set the permissions on your *.pem file. You should know how to do this from the Linux guide, but in case you didn't catch that detail, run:
$ chmod 600 /path/to/default-privatekey.pem
Food for Thought: Why you wouldn't want other people viewing your private key file?
You should now be able to SSH into your instance.
Creating a New User with SSH Permissions
First, you need to create your new user with sudo permissions. Again, the instructions for this are in the Linux guide, but to keep everything in one place, the commands are:
# Run these on your instance, not on your local machine! $ sudo useradd -r -m -c "My Full Name" <username here> # don't forget to customize `My Full Name` and `<username here>` $ sudo passwd <username here> $ sudo chsh -s /bin/bash <username here> # Ubuntu only $ sudo visudo # you need to add your username to the sudoers list. In my demo installation, this was near line 19.
Okay, cool: we have created our custom username on our remote instance. Now, we need to enable this account to accept our SSH key when authenticating. To do this, we need to add our public key to a file named authorized_keys, which is stored in your remote username's SSH configuration directory.
To create the directory and edit the file, run on your instance:
$ sudo su <username here> # switch to our own user to ensure that permissions are set correctly $ cd # change the working directory to our user's home directory $ mkdir .ssh # make the nonexistent SSH configuration directory $ nano .ssh/authorized_keys # create and edit the `authorized_keys` file
Inside of the `authorized_keys` file, paste in your public key. (Hint: your public key is the output of running
$ cat ~/.ssh/id_rsa.pub on your local machine, which you did earlier. It starts with "ssh-rsa".) When finished, save and close the file. Food for Thought: How would you enable your remote user to authenticate over SSH using the same default key instead of the one you created using ssh-keygen?
That should be all that we need to do!
Logging In as your New User
Let's test whether we can log into our instance using our own username and our own key pair. Open up a new Terminal or Cygwin and run:
$ ssh <username here>@ec2-xx-xx-xx-xx.compute-1.amazonaws.com
This is how you will be SSHing into your instances for the remainder of the semester.
Using SSH and SFTP
Once you have completed the #SSH Configuration section above, all you need to do in order to SSH into your instance is to open a terminal and run:
$ ssh <username here>@ec2-xx-xx-xx-xx.compute-1.amazonaws.com
However, once your configuration is complete, this is not the only way to log into your instance. For example, your SSH server also supports SFTP, which is a file transfer protocol that enables you to upload files directly to your instance. This section documents some of these alternative methods of connecting via SSH.
If you have Cygwin available, you should use it to SSH into your instance. However, if you are using a different computer, you might not have Cygwin at your fingertips. In this case, a lighter-weight SSH client called PuTTY is available for Windows. You can download PuTTY from: http://www.chiark.greenend.org.uk/~sgtatham/putty/
Amazon provides http://docs.amazonwebservices.com/AWSEC2/latest/GettingStartedGuide/ConnectToInstanceLinux.html#connect-from-windows-machine a great tutorial on how to connect to a virtual machine from Windows].
PuTTY is fairly simple and straight forward with one caveat: Amazon's *.pem files are SSH private key files, and they need to be converted to PuTTY's own .ppk format. To do this, use the puttygen.exe utility available from the same page as PuTTY. Select "Import" under the conversions menu, load the amazon *.pem key file, and press the "Save Private Key" button.
Copy and paste works similarly to the X Window System in Unix. You use the left mouse button to select text in the PuTTY window. The act of selection automatically copies the text to the clipboard: there is no need to press Ctrl-Ins or Ctrl-C or anything else. In fact, pressing Ctrl-C will send a Ctrl-C character to the other end of your connection (just like it does the rest of the time), which may have unpleasant effects. The only thing you need to do, to copy text to the clipboard, is to select it.
To paste the clipboard contents into a PuTTY window, by default you click the right mouse button. If you have a three-button mouse and are used to X applications, you can configure pasting to be done by the middle button instead, but this is not the default because most Windows users don't have a middle button at all.
Here is a good PuTTY tutorial that you might find useful to get started: http://kb.mediatemple.net/questions/1595/Using+SSH+in+Putty+%28Windows%29
SSHFS is a filesystem client which allows secure mounting of remote file systems. While there are other ways to mount remote file systems, SSHFS has the advantage of being able to mount a file system located on any host that has an SSH daemon running without any host side installation or configuration. This means that you can easily access and edit your files using all of your local applications including IDEs.
As you may have inferred from the name, the underlying implementation utilizes SSH File Transfer Protocol in combination with FUSE, a package now included in the kernel that allows unprivileged users to easily create their own file systems in userspace (see the wikipedia entry for more information ).
To mount a share using password based authentication, the command is:
$ sshfs user@domain:/path/to/remote/directory /path/to/local/mountpoint
For example, to mount the directory /home/joe/myfiles in the user joe's home directory for a machine with the domain schmoesfiles.org using SSHFS you would enter the command
$ sshfs firstname.lastname@example.org:myfiles
Note that if you are using public key authentication, the command to mount the remote filesystem may need to be slightly different:
$ sshfs -o IdentityFile=/path/to/private/key user@domain:/path/to/remote/directory /path/to/local/mountpoint
To unmount the filesystem, you can use the following command:
$ fusermount -u /path/to/local/mountpoint
Any server running an SSH server is also compatible with SFTP or Secure File Transfer Protocol. (Compare to FTP, or File Transfer Protocol.) SFTP is a convenient way to edit files on your computer and then upload them to your server in just a few clicks.
You can use SFTP from the command line, or you can use any GUI file transfer client. All FTP clients I have seen also support SFTP. One popular FTP client is Filezilla.
- Download and install FileZilla from http://filezilla-project.org/download.php?type=client
- If you are using a lab computer, you can save it to your H drive.
- When you launch FileZilla, go to Edit→Settings or FileZilla→Preferences, and go to the SFTP options (under Connection). Click "Add keyfile…", and choose the *.ppk file that you made earlier using Puttygen. (If you lost that file, you can choose your *.pem file, and FileZilla will convert it for you.)
- When finished, press OK (not the red ×) to save your changes.
- Back on the main FileZilla screen, there are four fields: Host, Username, Password, and Port. Fill them in as follows:
- Hostname: sftp://ec2-xxx-xx-xx-xxx.compute-1.amazonaws.com/
- Username: The username you created on your server.
- Password: Since you are using a key, you may leave this blank.
- If you changed your SSH settings to allow password-based authentication, then you could put your password in here.
- Port: 22
- Then click Quickconnect. If everything is configured correctly, FileZilla should log into your server.
On the left and right of the FileZilla window, you can drag files between your computer and your server. Thus, you can edit a file in a text editor like Notepad++ on your decktop, and then upload it to your server by simply dragging it from the left pane to the right pane in FileZilla.
When connecting as an administrator to your machine over the internet or intranet, you will most likelly be using ssh (secure shell). SSH access requires that the sshd daemon is running in your machine.
By default, SSH is preinstalled on your EC2 instance. If you are not using an EC2 instance, simply install it from yum or apt.
Normally, you can SSH into your machine with one of two ways: you can use traditional username/password authentication, or you can use a public/private key pair. A public/private key pair is generally considered to be more secure, but it requires that you always have access to your private key file when you want to log into your remote machine. By default, EC2 instances allow only public/private key pair authentication. You can enable password-based authentication by changing the PaswordAuthentication option in /etc/ssh/sshd_config to yes:
If possible, however, you should restrict yourself to using private and public keys.
SSH Server Configurations
The configuration files for SSH are in /etc/ssh. You can modify the files to affect SSH permissions, among other things. For example, it is always a good idea to disable root access over ssh. This could be done by editing /etc/ssh/sshd_config and setting
Caution: Disabling root access over SSH for your EC2 instance should only be done after setting up an additional user account and adding that account to the sudoers list.
For more detail on editing files on the command line, see the Linux guide.
You will need to restart the server for changes to take effect:
$ sudo service ssh restart # if that doesn't work, try: sudo /etc/init.d/sshd restart ssh stop/waiting ssh start/running, process 1443 $
Accessing your EC2 Instance via SSH
To access your instance via SSH, right click on the icon for the instance and click Connect. You have two options:
- You can use an SSH client on your computer. Amazon gives you instructions, and even gives you the command you need. For more information, see the Workflow guide.
- You can use an SSH client that Amazon provides that runs in your browser.
It is more convenient for you to use an SSH client on your machine so that you do not have to log into AWS every time you want to access your server. However, which option to use is up to you.
At first, you will need to SSH into your server using Amazon's default user.
- In the Amazon AMI, the default user is ec2-user
- In Ubuntu 12.04 LTS, the default user is ubuntu
To configure your server to allow logins using your own username, refer to the Web Server Configuration guide.