solidity/test/externalTests
2022-04-01 23:06:21 +02:00
..
solc-js externalTests/solc-js: Allow using a local checkout of solc-js 2022-02-04 15:05:00 +01:00
bleeps.sh externalTests: Benchmark reports 2022-02-09 17:02:40 +01:00
colony.sh externalTests: Benchmark reports 2022-02-09 17:02:40 +01:00
common.sh euler: Override Hardhat test timeout 2022-03-09 20:37:08 +01:00
elementfi.sh Re-enable running tests in external tests via IR in cases where they don't pass due to Hardhat heuristics 2022-03-10 14:13:00 +01:00
ens.sh Downgrade ethers.js to 5.6.1 in ens, gnosis, euler, perpetual-pools and uniswap external tests 2022-03-28 17:56:30 +02:00
euler.sh Downgrade ethers.js to 5.6.1 in ens, gnosis, euler, perpetual-pools and uniswap external tests 2022-03-28 17:56:30 +02:00
gnosis.sh Downgrade ethers.js to 5.6.1 in ens, gnosis, euler, perpetual-pools and uniswap external tests 2022-03-28 17:56:30 +02:00
perpetual-pools.sh Revert "perpetual-pools: Use Hardhat 2.8.4 to work around @openzeppelin/hardhat-upgrades's problem with parallel compilation on Hardhat 2.9.0" 2022-03-28 19:51:46 +02:00
pool-together.sh externalTests: Benchmark reports 2022-02-09 17:02:40 +01:00
prb-math.sh Re-enable running tests in external tests via IR in cases where they don't pass due to Hardhat heuristics 2022-03-10 14:13:00 +01:00
README.md externalTests/README: Recommend using upstream repository directly when possible 2021-10-26 16:04:08 +02:00
trident.sh Patch external tests with a safe inline assembly annotation. 2022-03-02 16:42:28 +01:00
uniswap.sh Downgrade ethers.js to 5.6.1 in ens, gnosis, euler, perpetual-pools and uniswap external tests 2022-03-28 17:56:30 +02:00
yield-liquidator.sh Neutralize packaged Uniswap contracts in yield-liquidator external test 2022-02-16 13:16:44 +01:00
zeppelin.sh zeppelin: Disable the newly added Polygon-Child test, failing via IR due to Hardhat heuristics 2022-04-01 23:06:21 +02:00

Solidity external tests

This directory contains scripts for compiling some of the popular open-source projects using the current version of the compiler and running their test suites.

Since projects often do not use the latest compiler, we keep a fork of each of these projects at https://github.com/solidity-external-tests/. If changes are needed to make a project work with the latest version of the compiler, they are maintained as a branch on top of the upstream master branch. This is especially important for testing our breaking branch because we can not realistically expect external projects to be instantly compatible with a compiler version that has not been released yet. Applying necessary changes ourselves gives us confidence that breaking changes are sane and that these projects can be upgraded at all.

Adding a new external project

  1. If the upstream code cannot be compiled without modifications, create a fork of the repository in https://github.com/solidity-external-tests/.
  2. In our fork, remove all the branches except for main one (master, develop, main, etc). This branch is going to be always kept up to date with the upstream repository and should not contain any extra commits.
    • If the project is not up to date with the latest compiler version but has a branch that is, try to use that branch instead.
  3. In our fork, create a new branch named after the main branch and the compiler version from our develop branch. E.g. if the latest Solidity version is 0.7.5 and the main branch of the external project is called master, create master_070. This is where we will be adding our own commits.
  4. Create a script for compiling/testing the project and put it in test/externalTests/ in the Solidity repository.
    • The script should apply workarounds necessary to make the project actually use the compiler binary it receives as a parameter and possibly add generic workarounds that should work across different versions of the upstream project.
    • Very specific workarounds that may easily break with every upstream change are better done as commits in the newly added branch in the fork instead.
  5. List the script in test/externalTests.sh.
  6. Add the script to CircleCI configuration. Make sure to add both a compilation-only run and one that also executes the test suite. If the latter takes a significant amount of time (say, more than 15 minutes) make it run nightly rather than on every PR.
  7. Make sure that tests pass both on develop and on breaking. If the compiler from breaking branch will not work without additional changes, add another branch, called after it in turn, and add necessary workarounds there. Continuing the example above, the new branch would be called master_080 and should be rebased on top of master_070.
    • The fewer commits in these branches, the better. Ideally, any changes needed to make the compiler work should be submitted upstream and our scripts should be using the upstream repository directly.

Updating external projects for a PR that introduces breaking changes in the compiler

If a PR to our breaking branch introduces changes that will make an external project no longer compile or pass its tests, the fork needs to be modified (or created if it does not yet exist):

  • If a branch specific to the compiler version from breaking does not exist yet:
    1. Create the branch. It should be based on the version-specific branch used on develop.
    2. Make your PR modify the project script in test/externalScripts/ to use the new branch.
    3. You are free to add any changes you need in the new branch since it will not interfere with tests on breaking.
    4. Work on your PR until it is approved and merged into breaking.
  • If the branch already exists and our CI depends on it:
    1. If the external project after your changes can still work with breaking even without your PR or if you know that the PR is straightforward and will be merged immediately without interfering with tests on breaking for a significant amount of time, you can just push your modifications to the branch directly and skip straight to steps 4. and 6.
    2. Create a PR in the fork, targeting the existing version-specific branch.
    3. In your PR to breaking, modify the corresponding script in test/externalScripts/ to use the branch from your PR in the fork.
    4. Work on your PR until it is approved and ready to merge.
    5. Merge the PR in the fork.
    6. Discard your changes to the script and merge your PR into breaking.

Pulling upstream changes into a fork

  1. Pull changes directly into the main branch in the fork. This should be straightforward thanks to it not containing any of our customizations.
  2. If the project has been updated to a newer Solidity version, abandon the current version-specific branch used on develop (but do not delete it) and create a new one corresponding to the newer version. Then update project script in test/externalTests/ to use the new branch. E.g. if develop uses master_050 and the project has been updated to use Solidity 0.7.3, create master_070.
  3. Otherwise, rebase the current version-specific branch on the main branch of the fork. This may require tweaking some of the commits to apply our fixes in new places.
  4. If we have a separate branch for breaking, rebase it on top of the one used on develop.

The above is the workflow to use when the update is straightforward and looks safe. In that case it is fine to just modify the branches directly. If this is not the case, it is recommended to first perform the operation on copies of these version-specific branches and test them by creating PRs on develop and breaking to see if tests pass. The PRs should just modify project scripts in test/externalScripts/ to use the updated copies of the branches and can be discarded aferwards without being merged.

Changes needed after a breaking release of the compiler

When a non-backwards-compatible version becomes the most recent release, breaking branch gets merged into develop which automatically results in a switch to the newer version-specific branches if they exist. If no changes on our part were necessary, it is completely fine to keep using e.g. the master_060 of an external project in Solidity 0.8.x.

Since each project is handled separately, this approach may result in a mix of version-specific branches between different external projects. For example, in one project we could could have master_050 on both develop and breaking and in another breaking could use master_080 while develop still uses master_060.