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387 lines
14 KiB
ReStructuredText
387 lines
14 KiB
ReStructuredText
.. highlight:: bash
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.. _transport:
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Transports
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==========
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The zrepl RPC layer uses **transports** to establish a single, bidirectional data stream between an active and passive job.
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On the passive (serving) side, the transport also provides the **client identity** to the upper layers:
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this string is used for access control and separation of filesystem sub-trees in :ref:`sink jobs <job-sink>`.
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Transports are specified in the ``connect`` or ``serve`` section of a job definition.
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.. contents::
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.. ATTENTION::
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The **client identities must be valid ZFS dataset path components**
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because the :ref:`sink job <job-sink>` uses ``${root_fs}/${client_identity}`` to determine the client's subtree.
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.. _transport-tcp:
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``tcp`` Transport
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-----------------
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The ``tcp`` transport uses plain TCP, which means that the data is **not encrypted** on the wire.
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Clients are identified by their IPv4 or IPv6 addresses, and the client identity is established through a mapping on the server.
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This transport may also be used in conjunction with network-layer encryption and/or VPN tunnels to provide encryption on the wire.
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To make the IP-based client authentication effective, such solutions should provide authenticated IP addresses.
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Some options to consider:
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.. _transport-tcp-tunneling:
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* `WireGuard <https://www.wireguard.com/>`_: Linux-focussed, in-kernel TLS
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* `OpenVPN <https://openvpn.net/>`_: Cross-platform VPN, uses tun on \*nix
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* `IPSec <https://en.wikipedia.org/wiki/IPsec>`_: Properly standardized, in-kernel network-layer VPN
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* `spiped <http://www.tarsnap.com/spiped.html>`_: think of it as an encrypted pipe between two servers
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* SSH
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* `sshuttle <https://sshuttle.readthedocs.io/en/stable/overview.html>`_: VPN-like solution, but using SSH
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* `SSH port forwarding <https://help.ubuntu.com/community/SSH/OpenSSH/PortForwarding>`_: Systemd user unit & make it start before the zrepl service.
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Serve
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~~~~~
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::
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jobs:
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- type: sink
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serve:
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type: tcp
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listen: ":8888"
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listen_freebind: true # optional, default false
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clients: {
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"192.168.122.123" : "mysql01",
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"192.168.122.42" : "mx01",
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"2001:0db8:85a3::8a2e:0370:7334": "gateway",
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# CIDR masks require a '*' in the client identity string
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# that is expanded to the client's IP address
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"10.23.42.0/24": "cluster-*"
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"fde4:8dba:82e1::/64": "san-*"
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}
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...
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.. _listen-freebind-explanation:
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``listen_freebind`` controls whether the socket is allowed to bind to non-local or unconfigured IP addresses (Linux ``IP_FREEBIND`` , FreeBSD ``IP_BINDANY``).
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Enable this option if you want to ``listen`` on a specific IP address that might not yet be configured when the zrepl daemon starts.
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Connect
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~~~~~~~
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::
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jobs:
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- type: push
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connect:
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type: tcp
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address: "10.23.42.23:8888"
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dial_timeout: # optional, default 10s
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...
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.. _transport-tcp+tlsclientauth:
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``tls`` Transport
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-----------------
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The ``tls`` transport uses TCP + TLS with client authentication using client certificates.
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The client identity is the common name (CN) presented in the client certificate.
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It is recommended to set up a dedicated CA infrastructure for this transport, e.g. using OpenVPN's `EasyRSA <https://github.com/OpenVPN/easy-rsa>`_.
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For a simple 2-machine setup, mutual TLS might also be sufficient.
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We provide :ref:`copy-pastable instructions to generate the certificates below <transport-tcp+tlsclientauth-certgen>`.
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The implementation uses `Go's TLS library <https://golang.org/pkg/crypto/tls/>`_.
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Since Go binaries are statically linked, you or your distribution need to recompile zrepl when vulnerabilities in that library are disclosed.
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All file paths are resolved relative to the zrepl daemon's working directory.
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Specify absolute paths if you are unsure what directory that is (or find out from your init system).
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If intermediate CAs are used, the **full chain** must be present in either in the ``ca`` file or the individual ``cert`` files.
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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 <https://tools.ietf.org/html/rfc5246#section-7.4.2>`_).
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This is the common default when using a CA management tool.
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.. NOTE::
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As of Go 1.15 (zrepl 0.3.0 and newer), the Go TLS / x509 library **requrires Subject Alternative Names**
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be present in certificates. You might need to re-generate your certificates using one of the :ref:`two alternatives
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provided below<transport-tcp+tlsclientauth-certgen>`.
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Note further that zrepl continues to use the CommonName field to assign client identities.
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Hence, we recommend to keep the Subject Alternative Name and the CommonName in sync.
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Serve
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~~~~~
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::
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jobs:
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- type: sink
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root_fs: "pool2/backup_laptops"
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serve:
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type: tls
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listen: ":8888"
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listen_freebind: true # optional, default false
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ca: /etc/zrepl/ca.crt
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cert: /etc/zrepl/prod.fullchain
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key: /etc/zrepl/prod.key
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client_cns:
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- "laptop1"
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- "homeserver"
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The ``ca`` field specified the certificate authority used to validate client certificates.
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The ``client_cns`` list specifies a list of accepted client common names (which are also the client identities for this transport).
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The ``listen_freebind`` field is :ref:`explained here <listen-freebind-explanation>`.
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Connect
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~~~~~~~
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::
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jobs:
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- type: pull
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connect:
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type: tls
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address: "server1.foo.bar:8888"
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ca: /etc/zrepl/ca.crt
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cert: /etc/zrepl/backupserver.fullchain
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key: /etc/zrepl/backupserver.key
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server_cn: "server1"
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dial_timeout: # optional, default 10s
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The ``ca`` field specifies the CA which signed the server's certificate (``serve.cert``).
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The ``server_cn`` specifies the expected common name (CN) of the server's certificate.
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It overrides the hostname specified in ``address``.
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The connection fails if either do not match.
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.. _transport-tcp+tlsclientauth-certgen:
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.. _transport-tcp+tlsclientauth-2machineopenssl:
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Mutual-TLS between Two Machines
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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However, for a two-machine setup, self-signed certificates distributed using an out-of-band mechanism will also work just fine:
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Suppose you have a push-mode setup, with `backups.example.com` running the :ref:`sink job <job-sink>`, and `prod.example.com` running the :ref:`push job <job-push>`.
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Run the following OpenSSL commands on each host, substituting HOSTNAME in both filenames and the interactive input prompt by OpenSSL:
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.. code-block:: bash
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(name=HOSTNAME; openssl req -x509 -sha256 -nodes \
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-newkey rsa:4096 \
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-days 365 \
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-keyout $name.key \
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-out $name.crt -addext "subjectAltName = DNS:$name" -subj "/CN=$name")
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Now copy each machine's ``HOSTNAME.crt`` to the other machine's ``/etc/zrepl/HOSTNAME.crt``, for example using `scp`.
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The serve & connect configuration will thus look like the following:
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::
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# on backups.example.com
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- type: sink
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serve:
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type: tls
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listen: ":8888"
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ca: "/etc/zrepl/prod.example.com.crt"
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cert: "/etc/zrepl/backups.example.com.crt"
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key: "/etc/zrepl/backups.example.com.key"
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client_cns:
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- "prod.example.com"
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...
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# on prod.example.com
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- type: push
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connect:
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type: tls
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address:"backups.example.com:8888"
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ca: /etc/zrepl/backups.example.com.crt
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cert: /etc/zrepl/prod.example.com.crt
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key: /etc/zrepl/prod.example.com.key
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server_cn: "backups.example.com"
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...
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Certificate Authority using EasyRSA
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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For more than two machines, it might make sense to set up a CA infrastructure.
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Tools like `EasyRSA <https://github.com/OpenVPN/easy-rsa>`_ make this very easy:
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::
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#!/usr/bin/env bash
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set -euo pipefail
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HOSTS=(backupserver prod1 prod2 prod3)
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curl -L https://github.com/OpenVPN/easy-rsa/releases/download/v3.0.7/EasyRSA-3.0.7.tgz > EasyRSA-3.0.7.tgz
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echo "157d2e8c115c3ad070c1b2641a4c9191e06a32a8e50971847a718251eeb510a8 EasyRSA-3.0.7.tgz" | sha256sum -c
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rm -rf EasyRSA-3.0.7
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tar -xf EasyRSA-3.0.7.tgz
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cd EasyRSA-3.0.7
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./easyrsa
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./easyrsa init-pki
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./easyrsa build-ca nopass
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for host in "${HOSTS[@]}"; do
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./easyrsa build-serverClient-full $host nopass
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echo cert for host $host available at pki/issued/$host.crt
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echo key for host $host available at pki/private/$host.key
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done
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echo ca cert available at pki/ca.crt
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.. _transport-ssh+stdinserver:
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``ssh+stdinserver`` Transport
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-----------------------------
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``ssh+stdinserver`` uses the ``ssh`` command and some features of the server-side SSH ``authorized_keys`` file.
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It is less efficient than other transports because the data passes through two more pipes.
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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.
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The concept is inspired by `git shell <https://git-scm.com/docs/git-shell>`_ and `Borg Backup <https://borgbackup.readthedocs.io/en/stable/deployment.html>`_.
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The implementation is provided by the Go package ``github.com/problame/go-netssh``.
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.. NOTE::
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``ssh+stdinserver`` generally provides inferior error detection and handling compared to the ``tcp`` and ``tls`` transports.
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When encountering such problems, consider using ``tcp`` or ``tls`` transports, or help improve package go-netssh.
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.. _transport-ssh+stdinserver-serve:
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Serve
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~~~~~
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::
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jobs:
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- type: source
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serve:
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type: stdinserver
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client_identities:
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- "client1"
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- "client2"
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...
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First of all, note that ``type=stdinserver`` in this case:
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Currently, only ``connect.type=ssh+stdinserver`` can connect to a ``serve.type=stdinserver``, but we want to keep that option open for future extensions.
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The serving job opens a UNIX socket named after ``client_identity`` in the runtime directory.
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In our example above, that is ``/var/run/zrepl/stdinserver/client1`` and ``/var/run/zrepl/stdinserver/client2``.
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On the same machine, the ``zrepl stdinserver $client_identity`` command connects to ``/var/run/zrepl/stdinserver/$client_identity``.
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It then passes its stdin and stdout file descriptors to the zrepl daemon via *cmsg(3)*.
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zrepl daemon in turn combines them into an object implementing ``net.Conn``:
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a ``Write()`` turns into a write to stdout, a ``Read()`` turns into a read from stdin.
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Interactive use of the ``stdinserver`` subcommand does not make much sense.
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However, we can force its execution when a user with a particular SSH pubkey connects via SSH.
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This can be achieved with an entry in the ``authorized_keys`` file of the serving zrepl daemon.
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::
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# for OpenSSH >= 7.2
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command="zrepl stdinserver CLIENT_IDENTITY",restrict CLIENT_SSH_KEY
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# for older OpenSSH versions
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command="zrepl stdinserver CLIENT_IDENTITY",no-port-forwarding,no-X11-forwarding,no-pty,no-agent-forwarding,no-user-rc CLIENT_SSH_KEY
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* CLIENT_IDENTITY is substituted with an entry from ``client_identities`` in our example
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* CLIENT_SSH_KEY is substituted with the public part of the SSH keypair specified in the ``connect.identity_file`` directive on the connecting host.
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.. NOTE::
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You may need to adjust the ``PermitRootLogin`` option in ``/etc/ssh/sshd_config`` to ``forced-commands-only`` or higher for this to work.
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Refer to sshd_config(5) for details.
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To recap, this is of how client authentication works with the ``ssh+stdinserver`` transport:
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* Connections to the ``/var/run/zrepl/stdinserver/${client_identity}`` UNIX socket are blindly trusted by zrepl daemon.
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The connection client identity is the name of the socket, i.e. ``${client_identity}``.
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* Thus, the runtime directory must be private to the zrepl user (this is checked by zrepl daemon)
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* The admin of the host with the serving zrepl daemon controls the ``authorized_keys`` file.
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* Thus, the administrator controls the mapping ``PUBKEY -> CLIENT_IDENTITY``.
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.. _transport-ssh+stdinserver-connect:
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Connect
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~~~~~~~
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::
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jobs:
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- type: pull
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connect:
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type: ssh+stdinserver
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host: prod.example.com
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user: root
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port: 22
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identity_file: /etc/zrepl/ssh/identity
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# options: # optional, default [], `-o` arguments passed to ssh
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# - "Compression=yes"
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# dial_timeout: 10s # optional, default 10s, max time.Duration until initial handshake is completed
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The connecting zrepl daemon
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#. Creates a pipe
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#. Forks
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#. In the forked process
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#. Replaces forked stdin and stdout with the corresponding pipe ends
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#. Executes the ``ssh`` binary found in ``$PATH``.
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#. The identity file (``-i``) is set to ``$identity_file``.
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#. The remote user, host and port correspond to those configured.
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#. Further options can be specified using the ``options`` field, which appends each entry in the list to the command line using ``-o $entry``.
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#. Wraps the pipe ends in a ``net.Conn`` and returns it to the RPC layer.
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As discussed in the section above, the connecting zrepl daemon expects that ``zrepl stdinserver $client_identity`` is executed automatically via an ``authorized_keys`` file entry.
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The ``known_hosts`` file used by the ssh command must contain an entry for ``connect.host`` prior to starting zrepl.
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Thus, run the following on the pulling host's command line (substituting ``connect.host``):
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ssh -i /etc/zrepl/ssh/identity root@prod.example.com
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.. NOTE::
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The environment variables of the underlying SSH process are cleared. ``$SSH_AUTH_SOCK`` will not be available.
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It is suggested to create a separate, unencrypted SSH key solely for that purpose.
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.. _transport-local:
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``local`` Transport
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-------------------
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The local transport can be used to implement :ref:`local replication <replication-local>`, i.e., push replication between a push and sink job defined in the same configuration file.
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The ``listener_name`` is analogous to a hostname and must match between ``serve`` and ``connect``.
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The ``client_identity`` is used by the sink as documented above.
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::
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jobs:
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- type: sink
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serve:
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type: local
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listener_name: localsink
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...
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- type: push
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connect:
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type: local
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listener_name: localsink
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client_identity: local_backup
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dial_timeout: 2s # optional, 0 for no timeout
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...
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