Use the SSH protocol with Bitbucket Cloud

Configure an SSH connection to Bitbucket to authenticate each remote connection without having to enter a username and password. You can use either secure hypertext transport protocol (HTTPS) or secure shell (SSH) to connect to Bitbucket. However, SSH holds some specific benefits over HTTPS if you're pushing and pulling many times a day.


  • Requires you to enter a username/password each time you connect.
  • Is suitable if you push and pull  to and from Bitbucket infrequently.


  • Removes the need to enter a password with each push or pull.
  • Is more effective for developers who are pushing and pulling from Bitbucket many times a day.

How SSH and Bitbucket work together

To use SSH with Bitbucket, you create an SSH identity containing a private key (on your local computer) and a public key (uploaded to Bitbucket) which create a key pair. After setting up SSH between your local system and Bitbucket, your system uses the key pair to authenticate you automatically to anything to which the associated account has access.

For security reasons, we recommend that you generate a new SSH key and replace the existing key on your account at least once a year.

There are a few important concepts you need when working with SSH identities and Bitbucket.

  • You cannot reuse an identity's public key across accounts. You must create SSH identities for each individual Bitbucket account. 
  • You can associate multiple identities with a Bitbucket account.

      Tell me why I would do that.

    You would create multiple identities for the same account if, for example, you access a repository from a work computer and a home computer. You might create multiple identities if you wanted to execute DVCS actions on a repository with a script – the script would use a public key with an empty passphrase, allowing it to run without human intervention.

  • RSA (R. Rivest, A. Shamir, L. Adleman are the originators) and digital signature algorithm (DSA) are key encryption algorithms. Bitbucket supports both types of algorithms. You should create identities using whichever encryption method is most comfortable and available to you.

If you have multiple identities, you'll need a SSH authentication agent program on your local system. This program runs in the background. You load all your keys into the agent and it manages the authentication for you. In a Windows environment, a common authentication agent is Pageant. In Mac OSX and Linux systems, ssh-agent is more common.

Deciding if you need a single or multiple identities

You only have to create two identities (keys) if you have two different Bitbucket accounts. The typical use case is the programmer who has a work-related Bitbucket account and a personal Bitbucket account.  Each account must have its own SSH key.  

SSH keys give you identity-based authentication. This means you can use the same identity from as many different systems as you like and connect to as many services with that identity.  Whether you should do this depends on how security conscious you are or need to be.

You should definitely have separate private keys per origin. That means there is a single copy of each private key (not counting backups). It's ok to use the same private key between closely related machines, such as situations in which where breaking into one machine basically gives you access to the other (for example if they're in each other's shosts.equiv). Don't use the same private key to log in from different networks (e.g. home and work), never share a private key between two users, and never share a private key between a laptop and any other machine.

If you aren't concerned about securing an identity, you can copy your identity to multiple machines. If you are concerned, or if you have multiple Bitbucket accounts, you should create multiple identities.

Single or multiple identity setup

The following pages provide information on setup of a single identity with Bitbucket:

The following pages provide information on configuring multiple identities:

The section on Windows with TortoiseHG assumes you have installed PuTTy.   If you have problems, please try to resolve your problems using our Troubleshoot SSH Issues page.

Repository URL formats by connection protocol

The URL you use to access a repository depends on the connection protocol (HTTPS or SSH) and the DVCS program. The following table shows the URL format for each case Bitbucket supports:

  SSH URL format HTTPS URL format
Mercurial ssh://<accountname>/<reponame>/<accountname>/<reponame>





In the SSH format, the accountname appears after or In HTTPS format, the accountname before or

Bitbucket displays repository-specific URLs for both Git and Mercurial on your repository Overview page.

Known host or Bitbucket's public key fingerprints

Each server that allows connection over the SSH provides its own public key to the connecting client. SSH stores the key in a known hosts list. In Mac OSX and Linux this list is in a ~/.ssh/known_hosts file. On Windows, PuTTYgen stores the information in the HKEY_CURRENT_USER\SoftWare\SimonTatham\PuTTY\SshHostKeys registry key. Each time your client reconnects SSH checks the server's identity against your known hosts just as the host is checking your identity. This two-way mechanism prevents man-in-the-middle attacks.

Bitbucket hosts only allow Git and Mercurial to make SSH connections. The first time you access Bitbucket using the SSH URL, your SSH client checks to see if the Bitbucket host is a known host. If the host is not in your ~/.ssh/known_hosts file SSH warns you that it is adding the Bitbucket host to known hosts:

$ hg clone ssh:// testkey
The authenticity of host ' (' can't be established.
RSA key fingerprint is 97:8c:1b:f2:6f:14:6b:5c:3b:ec:aa:46:46:74:7c:40.
Are you sure you want to continue connecting (yes/no)? 

If you view the contents of known hosts is stored you find the actual key is stored in a base64 encoded format:, ssh-rsa AAAAB3NzaC1yc2EAAAABIwAAAQEAubiN81eDcafrgMeLzaFPsw2kNvEcqTKl/VqLat/MaB33pZy0y3rJZtnqwR2qOOvbwKZYKiEO1O6VqNEBxKvJJelCq0dTXWT5pbO2gDXC6h6QDXCaHo6pOHGPUy+YBaGQRGuSusMEASYiWunYN0vCAI8QaXnWMXNMdFP3jHAJH0eDsoiGnLPBlBp4TNm6rYI74nMzgz3B9IikW4WVK+dc8KZJZWYjAuORU3jc1c/NPskD2ASinf8v3xnfXeukU0sJ5N6m5E8VLjObPEO+mN2t/FZTMZLiFqPWc/ALSqnMnnhwrNi2rbfg/rd/IpL8Le3pSBne8+seeFVBoGqzHM9yXw==

Technically, you should record the server's public host key before connecting to it for the first time. Depending on the security protocols in your network, the system administrator may maintain a centrally located list of approved known hosts. The public key fingerprints for the Bitbucket server are:

SHA256 format
2048 SHA256:zzXQOXSRBEiUtuE8AikJYKwbHaxvSc0ojez9YXaGp1A (RSA)
1024 SHA256:RezPkAnH1sowiJM0NQXH90IohWdzHc3fAisEp7L3O3o (DSA)
md5 format
97:8c:1b:f2:6f:14:6b:5c:3b:ec:aa:46:46:74:7c:40 (RSA)
35:ee:d7:b8:ef:d7:79:e2:c6:43:9e:ab:40:6f:50:74 (DSA)

To get the format suitable for storage in the known hosts, you can use the following ssh-keyscan command:

$ ssh-keyscan -t rsa
# SSH-2.0-OpenSSH_5.3 ssh-rsa AAAAB3NzaC1yc2EAAAABIwAAAQEAubiN81eDcafrgMeLzaFPsw2kNvEcqTKl/VqLat/MaB33pZy0y3rJZtnqwR2qOOvbwKZYKiEO1O6VqNEBxKvJJelCq0dTXWT5pbO2gDXC6h6QDXCaHo6pOHGPUy+YBaGQRGuSusMEASYiWunYN0vCAI8QaXnWMXNMdFP3jHAJH0eDsoiGnLPBlBp4TNm6rYI74nMzgz3B9IikW4WVK+dc8KZJZWYjAuORU3jc1c/NPskD2ASinf8v3xnfXeukU0sJ5N6m5E8VLjObPEO+mN2t/FZTMZLiFqPWc/ALSqnMnnhwrNi2rbfg/rd/IpL8Le3pSBne8+seeFVBoGqzHM9yXw==

SSH on Port 443

Some network administrators block outgoing SSH connections on port 22.  If your network blocks this port, Bitbucket provides an alternate hostname and port combination you can use.  The host supports SSH over port 443. Port 443 is typically used for HTTPS and administrator typically leave it open for outbound web browsing.  If you are blocked, you can use these URLs.

  Alternate SSH URL format
Mercurial ssh://
Git ssh://

Was this helpful?

Thanks for your feedback!

Why was this unhelpful?

Have a question about this article?

See questions about this article

Powered by Confluence and Scroll Viewport