.. -*- coding: utf-8-with-signature-unix; fill-column: 73; -*- .. -*- indent-tabs-mode: nil -*- ********************* How To Run Tahoe-LAFS ********************* Introduction ============ This is how to run a Tahoe-LAFS client or a complete Tahoe-LAFS grid. First you have to install the Tahoe-LAFS software, as documented in :doc:`Installing Tahoe-LAFS <../Installation/install-tahoe>`. The ``tahoe`` program in your virtualenv's ``bin`` directory is used to create, start, and stop nodes. Each node lives in a separate base directory, in which there is a configuration file named ``tahoe.cfg``. Nodes read and write files within this base directory. A grid consists of a set of *storage nodes* and *client nodes* running the Tahoe-LAFS code. There is also an *introducer node* that is responsible for getting the other nodes talking to each other. If you're getting started we recommend you try connecting to the `public test grid`_ as you only need to create a client node. When you want to create your own grid you'll need to create the introducer and several initial storage nodes (see the note about small grids below). Being Introduced to a Grid -------------------------- A collection of Tahoe servers is called a Grid and usually has 1 Introducer (but sometimes more, and it's possible to run with zero). The Introducer announces which storage servers constitute the Grid and how to contact them. There is a secret "fURL" you need to know to talk to the Introducer. One way to get this secret is using traditional tools such as encrypted email, encrypted instant-messaging, etcetera. It is important to transmit this fURL secretly as knowing it gives you access to the Grid. An additional way to share the fURL securely is via `magic wormhole`_. This uses a weak one-time password and a server on the internet (at `wormhole.tahoe-lafs.org`) to open a secure channel between two computers. In Tahoe-LAFS this functions via the commands `tahoe invite` and `tahoe create-client --join`. A person who already has access to a Grid can use `tahoe invite` to create one end of the `magic wormhole`_ and then transmits some JSON (including the Introducer's secret fURL) to the other end. `tahoe invite` will print a one-time secret code; you must then communicate this code to the person who will join the Grid. The other end of the `magic wormhole`_ in this case is `tahoe create-client --join `, where the person being invited types in the code they were given. Ideally, this code would be transmitted securely. It is, however, only useful exactly once. Also, it is much easier to transcribe by a human. Codes look like `7-surrender-tunnel` (a short number and two words). Running a Client ---------------- To construct a client node, run “``tahoe create-client``”, which will create ``~/.tahoe`` to be the node's base directory. Acquire the ``introducer.furl`` (see below if you are running your own introducer, or use the one from the `TestGrid page`_), and write it to ``~/.tahoe/private/introducers.yaml`` (see :ref:`introducer-definitions`). Then use “``tahoe run ~/.tahoe``”. After that, the node should be off and running. The first thing it will do is connect to the introducer and get itself connected to all other nodes on the grid. Some Grids use "magic wormhole" one-time codes to configure the basic options. In such a case you use ``tahoe create-client --join `` and do not have to do any of the ``tahoe.cfg`` editing mentioned above. By default, “``tahoe create-client``” creates a client-only node, that does not offer its disk space to other nodes. To configure other behavior, use “``tahoe create-node``” or see :doc:`configuration`. The “``tahoe run``” command above will run the node in the foreground. ``tahoe --help`` gives a summary of all commands. Running a Server or Introducer ------------------------------ To build either a storage server node, or an introducer node, you'll need a way for clients to connect to it. The simplest case is when the computer is on the public internet (e.g. a "VPS" virtual private server, with a public IP address and a DNS hostname like ``example.net``). See :doc:`servers` for help with more complex scenarios, using the ``--port`` and ``--location`` arguments. To construct an introducer, create a new base directory for it (the name of the directory is up to you), ``cd`` into it, and run “``tahoe create-introducer --hostname=example.net .``” (but using the hostname of your VPS). Now run the introducer using “``tahoe run .``”. After it starts, it will write a file named ``introducer.furl`` into the ``private/`` subdirectory of that base directory. This file contains the URL the other nodes must use in order to connect to this introducer. You can distribute your Introducer fURL securely to new clients by using the ``tahoe invite`` command. This will prepare some JSON to send to the other side, request a `magic wormhole`_ code from ``wormhole.tahoe-lafs.org`` and print it out to the terminal. This one-time code should be transmitted to the user of the client, who can then run ``tahoe create-client --join ``. Storage servers are created the same way: ``tahoe create-node --hostname=HOSTNAME .`` from a new directory. You'll need to provide the introducer FURL (either as a ``--introducer=`` argument, or by editing the ``tahoe.cfg`` configuration file afterwards) to connect to the introducer of your choice. See :doc:`configuration` for more details about how to configure Tahoe-LAFS. .. _public test grid: https://tahoe-lafs.org/trac/tahoe-lafs/wiki/TestGrid .. _TestGrid page: https://tahoe-lafs.org/trac/tahoe-lafs/wiki/TestGrid .. _#937: https://tahoe-lafs.org/trac/tahoe-lafs/ticket/937 .. _magic wormhole: https://magic-wormhole.io/ Multiple Instances ------------------ Running multiple instances against the same configuration directory isn't supported. This will lead to undefined behavior and could corrupt the configuration or state. We attempt to avoid this situation with a "pidfile"-style file in the config directory called ``running.process``. There may be a parallel file called ``running.process.lock`` in existence. The ``.lock`` file exists to make sure only one process modifies ``running.process`` at once. The lock file is managed by the `lockfile `_ library. If you wish to make use of ``running.process`` for any reason you should also lock it and follow the semantics of lockfile. If ``running.process`` exists then it contains the PID and the creation-time of the process. When no such file exists, there is no other process running on this configuration. If there is a ``running.process`` file, it may be a leftover file or it may indicate that another process is running against this config. To tell the difference, determine if the PID in the file exists currently. If it does, check the creation-time of the process versus the one in the file. If these match, there is another process currently running and using this config. Otherwise, the file is stale -- it should be removed before starting Tahoe-LAFS. Some example Python code to check the above situations: .. literalinclude:: check_running.py A note about small grids ------------------------ By default, Tahoe-LAFS ships with the configuration parameter ``shares.happy`` set to 7. If you are using Tahoe-LAFS on a grid with fewer than 7 storage nodes, this won't work well for you — none of your uploads will succeed. To fix this, see :doc:`configuration` to learn how to set ``shares.happy`` to a more suitable value for your grid. Development with Docker ----------------------- If you want to stand up a small local test environment, you can install `Docker`_ and `Docker Compose`_. Once you have cloned the repository, run ``docker-compose up`` from the project's root directory. This will start a introducer, server, and a client configured to connect to them. After the containers start, you can access the WUI by navigating to ``http://localhost:3456`` in your browser. .. _Docker: https://docs.docker.com/ .. _Docker Compose: https://docs.docker.com/compose/ Do Stuff With It ================ This is how to use your Tahoe-LAFS node. The WUI ------- Point your web browser to `http://127.0.0.1:3456`_ — which is the URL of the gateway running on your own local computer — to use your newly created node. Create a new directory (with the button labelled “create a directory”). Your web browser will load the new directory. Now if you want to be able to come back to this directory later, you have to bookmark it, or otherwise save a copy of the URL. If you lose the URL to this directory, then you can never again come back to this directory. .. _http://127.0.0.1:3456: http://127.0.0.1:3456 The CLI ------- Prefer the command-line? Run “``tahoe --help``” (the same command-line tool that is used to start and stop nodes serves to navigate and use the decentralized file store). To get started, create a new directory and mark it as the 'tahoe:' alias by running “``tahoe create-alias tahoe``”. Once you've done that, you can do “``tahoe ls tahoe:``” and “``tahoe cp LOCALFILE tahoe:foo.txt``” to work with your file store. The Tahoe-LAFS CLI uses similar syntax to the well-known scp and rsync tools. See :doc:`frontends/CLI` for more details. To backup a directory full of files and subdirectories, run “``tahoe backup LOCALDIRECTORY tahoe:``”. This will create a new LAFS subdirectory inside the “tahoe” LAFS directory named “Archive”, and inside “Archive”, it will create a new subdirectory whose name is the current date and time. That newly created subdirectory will be populated with a snapshot copy of all files and directories currently reachable from LOCALDIRECTORY. Then ``tahoe backup`` will make a link to that snapshot directory from the “tahoe” LAFS directory, and name the link “Latest”. ``tahoe backup`` cleverly avoids uploading any files or directories that haven't changed, and it also cleverly deduplicates any files or directories that have identical contents to other files or directories that it has previously backed-up. This means that running ``tahoe backup`` is a nice incremental operation that backs up your files and directories efficiently, and if it gets interrupted (for example by a network outage, or by you rebooting your computer during the backup, or so on), it will resume right where it left off the next time you run ``tahoe backup``. See :doc:`frontends/CLI` for more information about the ``tahoe backup`` command, as well as other commands. As with the WUI (and with all current interfaces to Tahoe-LAFS), you are responsible for remembering directory capabilities yourself. If you create a new directory and lose the capability to it, then you cannot access that directory ever again. The SFTP frontend ----------------- You can access your Tahoe-LAFS grid via any SFTP_ client. See :doc:`frontends/FTP-and-SFTP` for how to set this up. On most Unix platforms, you can also use SFTP to plug Tahoe-LAFS into your computer's local filesystem via ``sshfs``, but see the `FAQ about performance problems`_. The SftpFrontend_ page on the wiki has more information about using SFTP with Tahoe-LAFS. .. _SFTP: https://en.wikipedia.org/wiki/SSH_file_transfer_protocol .. _FAQ about performance problems: https://tahoe-lafs.org/trac/tahoe-lafs/wiki/FAQ#Q23_FUSE .. _SftpFrontend: https://tahoe-lafs.org/trac/tahoe-lafs/wiki/SftpFrontend The WAPI -------- Want to program your Tahoe-LAFS node to do your bidding? Easy! See :doc:`frontends/webapi`. Socialize ========= You can chat with other users of and hackers of this software on the #tahoe-lafs IRC channel at ``irc.libera.chat``, or on the `tahoe-dev mailing list`_. .. _tahoe-dev mailing list: https://lists.tahoe-lafs.org/mailman/listinfo/tahoe-dev Complain ======== Bugs can be filed on the Tahoe-LAFS "Trac" instance, at https://tahoe-lafs.org/trac/ . You can also "fork" the repo and submit Pull Requests on Github: https://github.com/tahoe-lafs/tahoe-lafs .