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Keep Your Data Private in the Cloud with Tahoe-LAFS
Traducciones al EspañolEstamos traduciendo nuestros guías y tutoriales al Español. Es posible que usted esté viendo una traducción generada automáticamente. Estamos trabajando con traductores profesionales para verificar las traducciones de nuestro sitio web. Este proyecto es un trabajo en curso.
DeprecatedThis guide has been deprecated and is no longer being maintained.
What is Tahoe-LAFS?
While Tahoe-LAFS might resemble other decentralized or distributed file system, like Gluster, Ceph or others, the problems it solves are different. The Least Authority File Store (LAFS) is designed with these things in mind:
Confidentiality: Keeping your data private, even if you store it on outside servers. When you keep sensitive data in the cloud, some inherent risks exist. For example:
- If the server is hacked, your data could be stolen.
- An user with read access might accidentally leak data or purposely steal it for their own gain.
By encrypting data before it reaches your storage servers, these risks are reduced.
Data integrity: If the encrypted data is compromised, the software detects the change, and in some cases, may still restore the original.
Redundancy: Tahoe-LAFS distributes your data in a redundant fashion.
By default, it uses a 3-of-10 configuration. This means that when you upload a file, it is split into ten shares and distributed randomly between your available storage nodes. To reconstruct the file, you need to get three of those shares back. If you have ten servers and a few fail, you can still retrieve your data. In a uniform distribution of shares, you would need only three servers. Since distribution is random the number required differs. One server can hold zero, one, two, or more shares, depending on the random number generated (it does however tend to favor a near uniform distribution).
Having more storage nodes and changing the default 3-of-10 to something else means you can make the setup more resistant to failure or attacks. 3-of-20 would give you a more uniform distribution. 1-of-10 would increase failure resistance but would keep ten copies of your data. So one gigabyte of data would require ten gigabytes of storage. This mechanism of shares makes it possible to destroy compromised or failed servers, create new ones, add them to the pool and redistribute shares if required.
All of these things make Tahoe-LAFS a good fit for securely storing sensitive data on remote machines, while at the same time mitigating risks of data loss. Storage space can be increased dynamically by adding to the pool of machines. To learn more, visit the Tahoe-LAFS documentation .
Before You Begin
If you have not already done so, create a Linode account and a Debian 9 Compute Instance. See our Getting Started with Linode and Creating a Compute Instance guides.
Follow our Setting Up and Securing a Compute Instance guide to update your system. You may also wish to set the timezone, configure your hostname, create a limited user account, and harden SSH access.
root
or with the sudo
prefix. For more information on privileges, see our
Users and Groups
guide.Server Requirements and Recommendations
With the default settings, at least 10 storage nodes will be needed for satisfactory results. For testing purposes you can launch fewer, but keep in mind that with less than seven storage units, most uploads will fail entirely. Read the documentation about
shares.needed
,shares.total
andshares.happy
to learn more about how to configure your nodes .Create the storage node Linodes with at least 2GB of RAM. The larger the files you plan to upload, the higher the memory and CPU pressure. With the current version of Tahoe-LAFS available in Debian 9’s repositories, at least 1GB RAM is required when uploading mutable files larger than 40MB. Once the node runs out of RAM you will get an out-of-memory kill. Periodically check the Grid Status page in the web user interface to maintain your grid.
For a more reliable and resilient setup, create Linodes in different data centers.
Install Tahoe-LAFS and Set Up the Introducer
Introducers are the middlemen, central points that connect storage nodes and clients together in the grid.
Introducers have a variety of advantages and disadvantages:
- Allow the system to alert every node when a new peer joins the grid.
- Tell the joining machines about the currently active peers to which it can connect.
- Potential for a single point of failure. But,
- Without the introducers you would have to edit a configuration file on every node, and add a new IP address every time you insert another node into the grid.
- Allow you to configure multiple introducers to make your setup more reliable in the event of crashes or other unforeseen events, ideally, in different data centers.
After you get acquainted with the initial introducer setup, you can read about additional introducers .
Log in as root and create an unprivileged user:
adduser --disabled-password --gecos "" tahoe
Install Tahoe-LAFS:
apt-get install tahoe-lafs
Log in as the
tahoe
user:su - tahoe
Create the introducer configuration, replacing
203.0.113.1
with the public IP address of your Linode:tahoe create-introducer --port=tcp:1234 --location=tcp:203.0.113.1:1234 --basedir=introducer
This creates a directory called
introducer
which contains a few configuration files. Logs and identifiers will be placed here as well.Generate an identifier by starting the introducer:
tahoe run --basedir introducer
The last line of output should mention
introducer running
. Press CTRL+C to stop the program. The identifier that is needed, called a FURL is now generated.Display the FURL using
cat
:cat introducer/private/introducer.furl
Copy the whole line starting with pb:// and paste it somewhere you can access it later. The storage nodes and clients will need to be configured with that value.
Logout from the user
tahoe
and return to root:exit
To automatically start up the introducer on boot, create a systemd service file with the following:
- File: /etc/systemd/system/tahoe-autostart-introducer.service
1 2 3 4 5 6 7 8 9 10 11 12
[Unit] Description=Tahoe-LAFS autostart introducer After=network.target [Service] Type=simple User=tahoe WorkingDirectory=/home/tahoe ExecStart=/usr/bin/tahoe run introducer --logfile=logs/introducer.log [Install] WantedBy=multi-user.target
While a rule to restart the process in case of a crash can be added here, it’s better to inspect the Linode each time a node, client or introducer crashes, before restarting the process.
Enable the service to automatically start at boot:
systemctl enable tahoe-autostart-introducer.service
Start the introducer:
systemctl start tahoe-autostart-introducer.service
You can now close the SSH session to avoid confusing windows and entering commands on the wrong Linode when configuring the rest.
How to Restart the Introducer
If the process crashes or encounters an error, start or restart the service with these commands.
Start the introducer service:
systemctl start tahoe-autostart-introducer.service
Restart the service:
systemctl restart tahoe-autostart-introducer.service
Add Tahoe-LAFS Storage Nodes to the Grid
Although the process can be automated so that you can easily expand your storage pool, set up your first node manually to get a better understanding of how things work and where certain files are located. The initial steps from the Before You Begin section apply here as well.
If you need large amounts of disk space, configure block storage devices on your Linode .
Configure block storage before the other steps in this section.
When you configure /etc/fstab
, instead of mounting your volume in /mnt/BlockStorage1
as instructed in the tutorial, mount it in /home
. Use the same location when using the mount
command. Unfortunately, going this route, has the added disadvantage that you won’t be able to automate the creation of storage nodes with the steps provided in the next subsection
.
After you launch a new Linode and deploy Debian 9, login as root and create an unprivileged user:
adduser --disabled-password --gecos "" tahoe
Install Tahoe-LAFS:
apt-get install tahoe-lafs
Log in as the unprivileged user:
su - tahoe
Retrieve the introducer FURL copied in Step 6 of the introducer installation , and paste it after
--introducer=
. Replacepb://<Introducer FURL>
with your own FURL. Replace203.0.113.1
in--location
with the public IP address of the Linode. Choose unique nicknames for each server as you repeat this step on new Linodes.tahoe create-node --nickname=node01 --introducer=pb://<Introducer FURL> --port=tcp:1235 --location=tcp:203.0.113.1:1235
Configuration files, shares, logs and other data are in
/home/tahoe/.tahoe
.Return to the root shell:
exit
Create a systemd service file:
- File: /etc/systemd/system/tahoe-autostart-node.service
1 2 3 4 5 6 7 8 9 10 11 12
[Unit] Description=Tahoe-LAFS autostart node After=network.target [Service] Type=simple User=tahoe WorkingDirectory=/home/tahoe ExecStart=/usr/bin/tahoe run .tahoe --logfile=logs/node.log [Install] WantedBy=multi-user.target
Enable the service to autostart the storage node at boot:
systemctl enable tahoe-autostart-node.service
Start the service to launch the node:
systemctl start tahoe-autostart-node.service
How to Use Linode StackScripts to Automatically Configure Storage Nodes
Since some users may require tens or hundreds of storage nodes, automate configuration of newly deployed Linodes with StackScripts.
To confirm each successful setup instead of launching all instances before verifying that they work, you can temporarily skip to the next two sections, and use the web user interface in your local browser. Then, return to this section, and after launching each Linode refresh the page after a few minutes. The new storage node should appear along with a green checkmark next to it.
Familiarize yourself with StackScripts , then navigate to the StackScripts page to add a new StackScript.
Select Debian 9 as the distribution and paste the following in the Script section:
#!/bin/bash #<UDF name="nickname" Label="Storage Node Nickname" example="node01" /> #<UDF name="introducer" Label="Introducer FURL" example="pb://wfpe..." /> apt-get update apt-get -y upgrade adduser --disabled-password --gecos "" tahoe apt-get -y install tahoe-lafs su - -c "tahoe create-node --nickname=$NICKNAME --introducer=$INTRODUCER --port=tcp:1235 --location=tcp:`curl -4 -s icanhazip.com`:1235" tahoe echo "[Unit] Description=Tahoe-LAFS autostart node After=network.target [Service] Type=simple User=tahoe WorkingDirectory=/home/tahoe ExecStart=/usr/bin/tahoe run .tahoe --logfile=logs/node.log [Install] WantedBy=multi-user.target" >> /etc/systemd/system/tahoe-autostart-node.service systemctl enable tahoe-autostart-node.service systemctl start tahoe-autostart-node.service
Save the changes.
Create a new Linode, deploy the StackScript on a Debian 9 image, and boot.
Repeat this procedure to create as many nodes as necessary for your storage cluster.
Set up the Tahoe-LAFS Client on Your Local Computer
To securely upload and download files to and from the grid, you must set up a client node on your local machine.
While you could use port forwarding to access the web user interface from a storage node hosted on Linode, or use the command line interface on a remote server to work with files in the grid, it’s not recommended to do so. Going this route exposes you to a few risks like accidentally leaking unencrypted data or filecaps/dircaps (think of them as passwords, giving you access to files and directories; more about this later).
Install the Tahoe-LAFS Client for your operating system:
Linux users should use their distribution’s package manager to install Tahoe-LAFS (as in previous sections).
- If your distribution doesn’t include Tahoe in its repositories, build Tahoe-LAFS from source .
Run
tahoe create-client
to configure a client node, replacingpb://<Introducer FURL>
with your own introducer FURL:tahoe create-client --nickname=localclient --introducer=pb://<Introducer FURL>
Launch the client to work with your grid:
tahoe run
Close the server with CTRL+C.
Manage your Grid with Tahoe-LAFS’s Web Interface
The web interface is the most user-friendly way to interact with your grid. One of the useful features of the interface is the bird’s eye view it gives you over the whole grid, showing active and inactive nodes, connection status and errors, total storage space available, and other details.
By default, the web server listens on the loopback interface, on port
3456
. Connect to it by launching the local client, then navigating to the address in your web browser:tahoe run --basedir client
Files can be uploaded using one of three algorithms:
- Immutable: Designed to store files that won’t be altered.
- SDMF (Small Mutable Distributed Files): Initially designed for small files, but supports larger sizes as well. May be slow for large files because it has to replace all blocks even when a few bytes have changed.
- MDMF (Medium Distributed Mutable Files): Allows large files to be modified in-place, with only the segments that have changed, it allows you to append data, and selectively retrieve only certain blocks that the user requests. Use this for large files that you update often.
After you upload a file, you get a capability or filecap. An SDMF filecap for example looks something like:
URI:SSK:4a4hv34xtt43a6s7ft76i563oa:7s643ebsf2yujglqhn55xo7c5ohunx2tpoi32dahgr23seob7t5q
Filecaps are the only way you to access the data once it’s encrypted. Store filecaps somewhere safe. If you lose a filecap there is no way to retrieve your data.
Since it’s hard to keep track of multiple random strings of characters, a more efficient way to store your data is to organize it in directories. These come with a handful of advantages:
- They can be bookmarked in your browser, allowing you to easily come back to them.
- These are also accessed using cryptographic secrets. If you lose the bookmarks or directory writecaps/readcaps, there’s no way to recover them. You can still access directory contents though if you have individual elements bookmarked or their capabilities saved somewhere.
- It’s easier to keep track of a directory capability that gives you access to hundreds of objects rather than keep track of hundreds of capabilities.
- Click More Info or More info on this directory to get read only capabilities so you can share data with others, verify data integrity, or repair and redistribute unhealthy shares.
- They can be bookmarked in your browser, allowing you to easily come back to them.
How to Use Tahoe-LAFS’s Command Line Interface
While the web user interface is easy to work with, it has some limitations. Another way to interact with files and directories is through the command line interface. Some of its advantages include the ability to recursively upload files, and synchronizing (backing up) directories.
After you’ve launched the local client, open another terminal window or command prompt and create an alias:
tahoe create-alias testing
This will create a directory on the grid and associate an alias to it so you can easily access it by typing
testing:
instead of a long capability.To copy an existing file from your current, local working directory into your new alias:
tahoe cp file1 testing:
List the alias contents:
tahoe ls testing:
List the file/directory capabilities:
tahoe ls --uri testing:
To upload an entire directory:
tahoe cp --recursive name-of-local-directory testing:
Back up a directory:
tahoe backup name-of-local-directory testing:
This creates incremental backups, kept in timestamped directories, and it will only upload files that have changed when running the command again.
Fix problems and redistribute file shares when required:
tahoe deep-check --repair testing:
It’s a good idea to routinely run this command on important directories and especially after you’ve lost a few storage nodes.
You should also save the capabilities stored in your aliases and keep them some place safe (back them up on another machine, preferably encrypted with a strong password). You can see these with:
tahoe list-aliases
To display a list of available commands:
tahoe
If you need additional help on a command:
tahoe name-of-command --help
For example:
tahoe ls --help
. For more information about Tahoe-LAFS, visit the official documentation .
Possible Next Steps
Now that you have your grid up and running, it’s important to maintain it in good working condition. Some improvements can be made:
If people with low upload bandwidth notice that it takes a long time to send a file to the grid, set up helper nodes . Slowdowns may occur because your local Tahoe client also has to send redundant data to multiple nodes.
In time, your storage servers might get full with data you no longer need. Read about garbage collection to understand how you can get rid of the unnecessary files.
More Information
You may wish to consult the following resources for additional information on this topic. While these are provided in the hope that they will be useful, please note that we cannot vouch for the accuracy or timeliness of externally hosted materials.
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