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Archival notice

This was merged into rust-ipfs on rs-ipfs/rust-ipfs#246 and lives on there.

ipfs-rust-conformance

Conformance testing for Rust IPFS

This repository contains the scripts used to run interface conformance testing for Rust IPFS. It uses js-ipfsd-ctl, npm-rust-ipfs-dep, and interface-js-ipfs-core. This code will likely either be integrated into ipfs-rust/rust-ipfs directly or integrated via CI.

Install

To clone the repository and ready it for use, first clone this repo:

$ git clone https://github.com/rs-ipfs/ipfs-rust-conformance

After cloning, use setup.sh to do npm install and patch any of the dependencies:

$ cd ipfs-rust-conformance
$ ./setup.sh

Usage

$ npm test

For development, you can symlink http to your rust-ipfs-http executable, and then use the rust.sh as IPFS_RUST_EXEC to run tests and capture all output from the binary.

$ ln -s /path/to/rust-ipfs/target/ipfs-http ./http
$ IPFS_RUST_EXEC=$(pwd)/rust.sh npm test
$ cat /tmp/rust.log

Patch management

We currently staying behind at [email protected] and the fixes we have upstreamed are also kept under patches/.

To create a new patch:

  1. Fork https://github.com/ipfs/js-ipfs/
  2. Clone locally
  3. Checkout a new branch based on the tag for the interface-ipfs-core version we are currently depending on (see package.json)
  4. Apply all of our patches from patches/ with git apply $ipfs_rust_conformance/patches/*
  5. Fix any new tests
  6. When done, cherry pick your commits to a new branch based off the latest main js-ipfs branch
  7. Submit PR
  8. Squash your work, refer to your PR in the message
  9. Remove existing patches/
  10. Recreate the patches/ with git format-patch -o $ipfs-rust-conformance/patches $the_tag_you_based_your_work

Where above:

  • $ipfs_rust_conformance points to your checkout of this repository
  • $the_tag_you_based_your_work is the tag you started working on js-ipfs working copy

Previously this has been done by first working on a patch and then backporting it, which might be easier. Luckily the tests are low traffic. If you need help wrestling with git, don't hesitate to ask for guidance; this is simpler than it's step by step explanation looks like.

Troubleshooting hangs

If the tests hang because of some deadlock on the ipfs-http side the tests will print the final summary from mocha and then seem to wait forever. This is true at least for the hangs seen so far, but you could run into a different issues. Note that in addition to test timeouts the http client also has a timeout, which can keep the npm test alive for less than ten seconds after the summary has been printed.

What has worked previously is:

  1. disable tests until you find the one which causes the hang
  2. rerun tests using the rust.sh wrapper which gives you logs at /tmp/rust.log
  3. continue debugging over at ipfs-http

"Disable tests" as in, comment tests out or run them with IPFS_RUST_EXEC=... npm test -- --grep 'should XYZ'. You should get to a single running test which hangs. If the test does a lot, you can refactor that into a smaller one which will only cause the hang and nothing else.

The use of rust.sh wrapper is critical as it'll give you the logging output. If the test has multiple running instances you might be better of separating logs into files per invocation of rust.sh by appending .$$ to the log files name, which will expand to the process id of the shell running the script.

"Continue debugging" is a more tricky one. What has worked previously is:

  1. attaching a gdb to a running process in the case of livelocks
  2. adding debugging in the case of "everything stalled"

(I might be using the term wrong here) Livelocks happen when a task (running on either tokio or async-std) never returns from std::future::Future::poll but stays busy all of the time. You can spot these by seeing a core being utilitized by ipfs-http constantly. These are easy to track down by:

  1. attach gdb -p $process_id path/to/your/ipfs-http
  2. find the interesting thread info threads or by looking at threads stacktraces

In the "everything stalled" case a std::future::Future::poll has completed with Poll::Pending without waking up the task for a new poll. These are quite easy mistakes to made. Good indications of such issues:

  • custom poll methods without the [std::task::Context] parameter: these methods will never be able to schedule wakeups
  • polling some nested "pollable" thing and returning Poll::Pending following nested returning Poll::Ready(_)
    • if the inner "pollable" didn't return Poll::Pending it means it had "more values to bubble up"
    • see this hastly written issue libp2p/rust-libp2p#1516 and the linked commit(s)
  • custom [std::future::Future] which cannot return errors on drop like with the early SubscriptionFuture (see rs-ipfs/rust-ipfs#130)

Contributing

Issues and pull requests welcome.

License

TBD

Trademarks

The Rust logo and wordmark are trademarks owned and protected by the Mozilla Foundation. The Rust and Cargo logos (bitmap and vector) are owned by Mozilla and distributed under the terms of the Creative Commons Attribution license (CC-BY).

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