.. highlight:: bash .. _transport: Transports ========== The zrepl RPC layer uses **transports** to establish a single, bidirectional data stream between an active and passive job. On the passive (serving) side, the transport also provides the **client identity** to the upper layers: this string is used for access control and separation of filesystem sub-trees in :ref:`sink jobs `. Transports are specified in the ``connect`` or ``serve`` section of a job definition. .. contents:: .. ATTENTION:: The **client identities must be valid ZFS dataset path components** because the :ref:`sink job ` uses ``${root_fs}/${client_identity}`` to determine the client's subtree. .. _transport-tcp: ``tcp`` Transport ----------------- The ``tcp`` transport uses plain TCP, which means that the data is **not encrypted** on the wire. Clients are identified by their IPv4 or IPv6 addresses, and the client identity is established through a mapping on the server. This transport may also be used in conjunction with network-layer encryption and/or VPN tunnels to provide encryption on the wire. To make the IP-based client authentication effective, such solutions should provide authenticated IP addresses. Some options to consider: .. _transport-tcp-tunneling: * `WireGuard `_: Linux-focussed, in-kernel TLS * `OpenVPN `_: Cross-platform VPN, uses tun on \*nix * `IPSec `_: Properly standardized, in-kernel network-layer VPN * `spiped `_: think of it as an encrypted pipe between two servers * SSH * `sshuttle `_: VPN-like solution, but using SSH * `SSH port forwarding `_: Systemd user unit & make it start before the zrepl service. Serve ~~~~~ :: jobs: - type: sink serve: type: tcp listen: ":8888" listen_freebind: true # optional, default false clients: { "192.168.122.123" : "mysql01" "192.168.122.123" : "mx01" } ... .. _listen-freebind-explanation: ``listen_freebind`` controls whether the socket is allowed to bind to non-local or unconfigured IP addresses (Linux ``IP_FREEBIND`` , FreeBSD ``IP_BINDANY``). Enable this option if you want to ``listen`` on a specific IP address that might not yet be configured when the zrepl daemon starts. Connect ~~~~~~~ :: jobs: - type: push connect: type: tcp address: "10.23.42.23:8888" dial_timeout: # optional, default 10s ... .. _transport-tcp+tlsclientauth: ``tls`` Transport ----------------- The ``tls`` transport uses TCP + TLS with client authentication using client certificates. The client identity is the common name (CN) presented in the client certificate. It is recommended to set up a dedicated CA infrastructure for this transport, e.g. using OpenVPN's `EasyRSA `_. For a simple 2-machine setup, see the :ref:`instructions below`. The implementation uses `Go's TLS library `_. Since Go binaries are statically linked, you or your distribution need to recompile zrepl when vulnerabilities in that library are disclosed. All file paths are resolved relative to the zrepl daemon's working directory. Specify absolute paths if you are unsure what directory that is (or find out from your init system). If intermediate CAs are used, the **full chain** must be present in either in the ``ca`` file or the individual ``cert`` files. Regardless, the client's certificate must be first in the ``cert`` file, with each following certificate directly certifying the one preceding it (see `TLS's specification `_). This is the common default when using a CA management tool. Serve ~~~~~ :: jobs: - type: sink root_fs: "pool2/backup_laptops" serve: type: tls listen: ":8888" listen_freebind: true # optional, default false ca: /etc/zrepl/ca.crt cert: /etc/zrepl/prod.fullchain key: /etc/zrepl/prod.key client_cns: - "laptop1" - "homeserver" The ``ca`` field specified the certificate authority used to validate client certificates. The ``client_cns`` list specifies a list of accepted client common names (which are also the client identities for this transport). The ``listen_freebind`` field is :ref:`explained here `. Connect ~~~~~~~ :: jobs: - type: pull connect: type: tls address: "server1.foo.bar:8888" ca: /etc/zrepl/ca.crt cert: /etc/zrepl/backupserver.fullchain key: /etc/zrepl/backupserver.key server_cn: "server1" dial_timeout: # optional, default 10s The ``ca`` field specifies the CA which signed the server's certificate (``serve.cert``). The ``server_cn`` specifies the expected common name (CN) of the server's certificate. It overrides the hostname specified in ``address``. The connection fails if either do not match. .. _transport-tcp+tlsclientauth-2machineopenssl: Self-Signed Certificates ~~~~~~~~~~~~~~~~~~~~~~~~ Tools like `EasyRSA `_ make it easy to manage CA infrastructure for multiple clients, e.g. a central zrepl backup server (in sink mode). However, for a two-machine setup, self-signed certificates distributed using an out-of-band mechanism will also work just fine: Suppose you have a push-mode setup, with `backups.example.com` running the :ref:`sink job `, and `prod.example.com` running the :ref:`push job `. Run the following OpenSSL commands on each host, substituting HOSTNAME in both filenames and the interactive input prompt by OpenSSL: .. code-block:: bash :emphasize-lines: 1-5,24 openssl req -x509 -sha256 -nodes \ -newkey rsa:4096 \ -days 365 \ -keyout HOSTNAME.key \ -out HOSTNAME.crt #Generating a 4096 bit RSA private key #................++++ #.++++ #writing new private key to 'backups.key' #----- #You are about to be asked to enter information that will be incorporated #into your certificate request. #What you are about to enter is what is called a Distinguished Name or a DN. #There are quite a few fields but you can leave some blank #For some fields there will be a default value, #If you enter '.', the field will be left blank. #----- #Country Name (2 letter code) [XX]: #State or Province Name (full name) []: #Locality Name (eg, city) [Default City]: #Organization Name (eg, company) [Default Company Ltd]: #Organizational Unit Name (eg, section) []: #Common Name (eg, your name or your server's hostname) []:HOSTNAME #Email Address []: Now copy each machine's ``HOSTNAME.crt`` to the other machine's ``/etc/zrepl/HOSTNAME.crt``, for example using `scp`. The serve & connect configuration will thus look like the following: :: # on backups.example.com - type: sink serve: type: tls listen: ":8888" ca: "/etc/zrepl/prod.example.com.crt" cert: "/etc/zrepl/backups.example.com.crt" key: "/etc/zrepl/backups.example.com.key" client_cns: - "prod.example.com" ... # on prod.example.com - type: push connect: type: tls address:"backups.example.com:8888" ca: /etc/zrepl/backups.example.com.crt cert: /etc/zrepl/prod.example.com.crt key: /etc/zrepl/prod.example.com.key server_cn: "backups.example.com" ... .. _transport-ssh+stdinserver: ``ssh+stdinserver`` Transport ----------------------------- ``ssh+stdinserver`` uses the ``ssh`` command and some features of the server-side SSH ``authorized_keys`` file. It is less efficient than other transports because the data passes through two more pipes. However, it is fairly convenient to set up and allows the zrepl daemon to not be directly exposed to the internet, because all traffic passes through the system's SSH server. The concept is inspired by `git shell `_ and `Borg Backup `_. The implementation is provided by the Go package ``github.com/problame/go-netssh``. .. NOTE:: ``ssh+stdinserver`` generally provides inferior error detection and handling compared to the ``tcp`` and ``tls`` transports. When encountering such problems, consider using ``tcp`` or ``tls`` transports, or help improve package go-netssh. .. _transport-ssh+stdinserver-serve: Serve ~~~~~ :: jobs: - type: source serve: type: stdinserver client_identities: - "client1" - "client2" ... First of all, note that ``type=stdinserver`` in this case: Currently, only ``connect.type=ssh+stdinserver`` can connect to a ``serve.type=stdinserver``, but we want to keep that option open for future extensions. The serving job opens a UNIX socket named after ``client_identity`` in the runtime directory. In our example above, that is ``/var/run/zrepl/stdinserver/client1`` and ``/var/run/zrepl/stdinserver/client2``. On the same machine, the ``zrepl stdinserver $client_identity`` command connects to ``/var/run/zrepl/stdinserver/$client_identity``. It then passes its stdin and stdout file descriptors to the zrepl daemon via *cmsg(3)*. zrepl daemon in turn combines them into an object implementing ``net.Conn``: a ``Write()`` turns into a write to stdout, a ``Read()`` turns into a read from stdin. Interactive use of the ``stdinserver`` subcommand does not make much sense. However, we can force its execution when a user with a particular SSH pubkey connects via SSH. This can be achieved with an entry in the ``authorized_keys`` file of the serving zrepl daemon. :: # for OpenSSH >= 7.2 command="zrepl stdinserver CLIENT_IDENTITY",restrict CLIENT_SSH_KEY # for older OpenSSH versions command="zrepl stdinserver CLIENT_IDENTITY",no-port-forwarding,no-X11-forwarding,no-pty,no-agent-forwarding,no-user-rc CLIENT_SSH_KEY * CLIENT_IDENTITY is substituted with an entry from ``client_identities`` in our example * CLIENT_SSH_KEY is substituted with the public part of the SSH keypair specified in the ``connect.identity_file`` directive on the connecting host. .. NOTE:: You may need to adjust the ``PermitRootLogin`` option in ``/etc/ssh/sshd_config`` to ``forced-commands-only`` or higher for this to work. Refer to sshd_config(5) for details. To recap, this is of how client authentication works with the ``ssh+stdinserver`` transport: * Connections to the ``/var/run/zrepl/stdinserver/${client_identity}`` UNIX socket are blindly trusted by zrepl daemon. The connection client identity is the name of the socket, i.e. ``${client_identity}``. * Thus, the runtime directory must be private to the zrepl user (this is checked by zrepl daemon) * The admin of the host with the serving zrepl daemon controls the ``authorized_keys`` file. * Thus, the administrator controls the mapping ``PUBKEY -> CLIENT_IDENTITY``. .. _transport-ssh+stdinserver-connect: Connect ~~~~~~~ :: jobs: - type: pull connect: type: ssh+stdinserver host: prod.example.com user: root port: 22 identity_file: /etc/zrepl/ssh/identity # options: # optional, default [], `-o` arguments passed to ssh # - "Compression=yes" # dial_timeout: 10s # optional, default 10s, max time.Duration until initial handshake is completed The connecting zrepl daemon #. Creates a pipe #. Forks #. In the forked process #. Replaces forked stdin and stdout with the corresponding pipe ends #. Executes the ``ssh`` binary found in ``$PATH``. #. The identity file (``-i``) is set to ``$identity_file``. #. The remote user, host and port correspond to those configured. #. Further options can be specified using the ``options`` field, which appends each entry in the list to the command line using ``-o $entry``. #. Wraps the pipe ends in a ``net.Conn`` and returns it to the RPC layer. As discussed in the section above, the connecting zrepl daemon expects that ``zrepl stdinserver $client_identity`` is executed automatically via an ``authorized_keys`` file entry. The ``known_hosts`` file used by the ssh command must contain an entry for ``connect.host`` prior to starting zrepl. Thus, run the following on the pulling host's command line (substituting ``connect.host``): :: ssh -i /etc/zrepl/ssh/identity root@prod.example.com .. NOTE:: The environment variables of the underlying SSH process are cleared. ``$SSH_AUTH_SOCK`` will not be available. It is suggested to create a separate, unencrypted SSH key solely for that purpose. .. _transport-local: ``local`` Transport ------------------- The local transport can be used to implement :ref:`local replication `, i.e., push replication between a push and sink job defined in the same configuration file. The ``listener_name`` is analogous to a hostname and must match between ``serve`` and ``connect``. The ``client_identity`` is used by the sink as documented above. :: jobs: - type: sink serve: type: local listener_name: localsink ... - type: push connect: type: local listener_name: localsink client_identity: local_backup dial_timeout: 2s # optional, 0 for no timeout ...