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Passim

Translation status OpenSSF Scorecard OpenSSF Best Practices

A local caching server. Named after the Latin word for “here, there and everywhere”.

Introduction

Much of the software running on your computer that connects to other systems over the Internet needs to periodically download metadata or information needed to perform other requests.

As part of running the passim/LVFS projects I've seen how download this small file once per 24h turns into tens of millions of requests per day. Everybody downloads the same file from a CDN, and although a CDN is not super-expensive, it's certainly not free. Everybody on your current network (perhaps thousands of users) has to download the same 1MB blob of metadata from a CDN over a perhaps-expensive internet link.

What if we could download the file from the CDN on one machine, and the next machine on the local network that needs it instead downloads it from the first machine? We could put a limit on the number of times it can be shared, and the maximum age so that we don't store yesterdays metadata forever, and so that we don't turn a ThinkPad X220 into a machine distributing 1Gb/s to every other machine in the office. We could cut the CDN traffic by at least one order of magnitude, but possibly much more. This is better for the person paying the cloud bill, the person paying for the internet connection, and the planet as a whole.

This is what passim tries to be. You add automatically or manually add files to the daemon which stores them in /var/lib/passim/data with attributes set on each file for the max-age and share-limit. When the file has been shared more than the share limit number of times, or is older than the max age it is deleted and not advertised to other clients.

The daemon then advertises the availability of the file as a mDNS service subtype and provides a tiny single-threaded webserver that supplies the file using HTTP using a self-signed TLS certificate.

The file is sent when requested from a URL like https://192.168.1.1:27500/filename.xml.gz?sha256=hash -- any file requested without the checksum will not be supplied. Although this is a chicken-and-egg problem where you don't know the payload checksum until you've checked the remote server, this is easy solved using a tiny <100 byte request to the CDN for the payload checksum (or a .jcat file) and then the multi-megabyte (or multi-gigabyte!) payload can be requested over mDNS.

Sharing Considerations

Here we've assuming your local network (aka LAN) is a nice and friendly place, without evil people trying to overwhelm your system or feed you fake files. Although we request files by their hash (and thus can detect tampering) it still uses resources to send a file over the network.

We'll assume that any network with working mDNS (as implemented in Avahi) is good enough to get metadata from other peers. If Avahi is not running, or mDNS is turned off on the firewall then no files will be shared.

The cached index is available locally without any kind of authentication -- both over mDNS and as a webpage on https://localhost:27500/.

So, NEVER ADD FILES TO THE CACHE THAT YOU DO NOT WANT TO SHARE. Even the filename may give more clues than you wanted to provide, e.g. sharing a file might get you in trouble. This can be subtle; if you download a security update for a Lenovo P1 Gen 3 laptop and share it with other laptops on your LAN -- it also tells the attacker your laptop model and also that you're running a system firmware that isn't patched against the latest firmware bug.

My recommendation here is only to advertise files that are common to all machines. For instance:

  • AdBlocker metadata
  • Firmware update metadata
  • Remote metadata for update frameworks, e.g. apt-get/dnf etc.

Implementation Considerations

Any client MUST (and I'll go as far as to say it again, MUST) calculate the checksum of the supplied file and verify that it matches. There is no authentication or signing verification done so this step is non-optional. A malicious server could advertise the hash of firmware.xml.gz but actually supply evil-payload.exe -- and you do not want that.

Static Data

Passim can also add the contents of static directories, and offer those to clients. This might be useful if you have a big directory of thousands of files (an LVFS mirror, for example) that you want to distribute from a dedicated machine.

To set this up, create a keyfile with a unique name and extension .conf, something like /etc/passim.d/lvfs.conf with the contents:

[passim]
Path=/srv/lvfs/downloads/

The running daemon will be notified this file has been created, scan the contents, and publish them for other users. If passimd has write permissions on the directory, it will also write an xattr of user.checksum.sha256 which will speed up the next daemon restart considerably.

Firewall Configuration

Port 27500 should be open by default, but if downloading files fails you can open the port using firewalld:

$ firewall-cmd --permanent --zone=public --add-port=27500/tcp

Comparisons

The obvious comparison to make is IPFS. I'll try to make this as fair as possible, although I'm obviously somewhat biased.

IPFS:

  • existing project that's existed for many years tested by many people
  • allows sharing with other users not on your local network
  • not packaged in many distributions and not trivial to install correctly
  • requires a significant time to find resources
  • does not prioritize local clients over remote clients
  • requires a internet<->IPFS "gateway" which cost $$$ for a large number of files

Passim:

  • new project that's not even finished
  • only allowed sharing with computers on your local network
  • returns results within 2s

One concern we had specifically with IPFS with firmware were ITAR/EAR legal considerations. e.g. we can't share firmware containing strong encryption with users in some countries. From an ITAR/EAR point of view Passim would be compliant (as it only shares locally) and IPFS would not be.

Debugging

$ curl -v -k https://localhost:27500/HELLO.md?sha256=a948904f2f0f479b8f8197694b30184b0d2ed1c1cd2a1ec0fb85d299a192a447 -L
*   Trying 127.0.0.1:27500...
* Connected to localhost (127.0.0.1) port 27500 (#0)
* ALPN: offers h2,http/1.1
* TLSv1.3 (OUT), TLS handshake, Client hello (1):
* TLSv1.3 (IN), TLS handshake, Server hello (2):
* TLSv1.3 (IN), TLS handshake, Encrypted Extensions (8):
* TLSv1.3 (IN), TLS handshake, Certificate (11):
* TLSv1.3 (IN), TLS handshake, CERT verify (15):
* TLSv1.3 (IN), TLS handshake, Finished (20):
* TLSv1.3 (OUT), TLS change cipher, Change cipher spec (1):
* TLSv1.3 (OUT), TLS handshake, Finished (20):
* SSL connection using TLSv1.3 / TLS_AES_256_GCM_SHA384
* ALPN: server accepted http/1.1
* Server certificate:
*  subject: [NONE]
*  start date: Aug 15 20:13:03 2023 GMT
*  expire date: Dec 31 23:59:59 9999 GMT
* using HTTP/1.1
> GET /HELLO.md?sha256=a948904f2f0f479b8f8197694b30184b0d2ed1c1cd2a1ec0fb85d299a192a447 HTTP/1.1
> Host: localhost:27500
> User-Agent: curl/8.0.1
> Accept: */*
>
< HTTP/1.1 302 Found
< Server: passim libsoup/3.4.2
< Date: Tue, 15 Aug 2023 20:37:10 GMT
< Location: https://192.168.122.39:27500/sha256=a948904f2f0f479b8f8197694b30184b0d2ed1c1cd2a1ec0fb85d299a192a447?sha256=a948904f2f0f479b8f8197694b30184b0d2ed1c1cd2a1ec0fb85d299a192a447
< Content-Type: text/html
< Content-Length: 227
<
* Ignoring the response-body
* Connection #0 to host localhost left intact
* Issue another request to this URL: 'https://192.168.122.39:27500/sha256=a948904f2f0f479b8f8197694b30184b0d2ed1c1cd2a1ec0fb85d299a192a447?sha256=a948904f2f0f479b8f8197694b30184b0d2ed1c1cd2a1ec0fb85d299a192a447'
*   Trying 192.168.122.39:27500...
* Connected to 192.168.122.39 (192.168.122.39) port 27500 (#1)
* ALPN: offers h2,http/1.1
* TLSv1.3 (OUT), TLS handshake, Client hello (1):
* TLSv1.3 (IN), TLS handshake, Server hello (2):
* TLSv1.3 (IN), TLS handshake, Encrypted Extensions (8):
* TLSv1.3 (IN), TLS handshake, Certificate (11):
* TLSv1.3 (IN), TLS handshake, CERT verify (15):
* TLSv1.3 (IN), TLS handshake, Finished (20):
* TLSv1.3 (OUT), TLS change cipher, Change cipher spec (1):
* TLSv1.3 (OUT), TLS handshake, Finished (20):
* SSL connection using TLSv1.3 / TLS_AES_256_GCM_SHA384
* ALPN: server accepted http/1.1
* Server certificate:
*  subject: [NONE]
*  start date: Aug 15 20:27:28 2023 GMT
*  expire date: Dec 31 23:59:59 9999 GMT
* using HTTP/1.1
> GET /sha256=a948904f2f0f479b8f8197694b30184b0d2ed1c1cd2a1ec0fb85d299a192a447?sha256=a948904f2f0f479b8f8197694b30184b0d2ed1c1cd2a1ec0fb85d299a192a447 HTTP/1.1
> Host: 192.168.122.39:27500
> User-Agent: curl/8.0.1
> Accept: */*
>
< HTTP/1.1 200 OK
< Server: passim libsoup/3.4.2
< Date: Tue, 15 Aug 2023 20:37:11 GMT
< Content-Disposition: attachment; filename="a948904f2f0f479b8f8197694b30184b0d2ed1c1cd2a1ec0fb85d299a192a447-HELLO.md"
< Content-Type: text/markdown
< Content-Length: 12
<
hello world
* Connection #1 to host 192.168.122.39 left intact

Using the CLI:

$ passim dump
7ea83bf1f9505f1e846cddef0d8ee49f6fd19361e2eb2f2e4f371b86382eacc2 HELLO.md (max-age: 86400, share-limit: 5)
$ sudo passim publish /var/lib/passim/metadata/lvfs/metadata.xml.xz 60 44
7ea83bf1f9505f1e846cddef0d8ee49f6fd19361e2eb2f2e4f371b86382eacc2 HELLO.md (max-age: 86400, share-limit: 5)
0157efe3cdab369a17b68facb187df1c559c91e2771c9094880ff2019ad84eaf metadata.xml.xz (max-age: 60, share-count: 0, share-limit: 44)

TODO:

  • Self tests