### What does this PR do?
<!-- **Please explain what your changes do**, example: -->
<!--
This adds a new flag --bail to bun test. When set, it will stop running
tests after the first failure. This is useful for CI environments where
you want to fail fast.
-->
### How did you verify your code works?
ran fuzzy-wuzzy.test.ts
<!-- **For code changes, please include automated tests**. Feel free to
uncomment the line below -->
<!-- I wrote automated tests -->
<!-- If JavaScript/TypeScript modules or builtins changed:
- [ ] I included a test for the new code, or existing tests cover it
- [ ] I ran my tests locally and they pass (`bun-debug test
test-file-name.test`)
-->
<!-- If Zig files changed:
- [ ] I checked the lifetime of memory allocated to verify it's (1)
freed and (2) only freed when it should be
- [ ] I included a test for the new code, or an existing test covers it
- [ ] JSValue used outside of the stack is either wrapped in a
JSC.Strong or is JSValueProtect'ed
- [ ] I wrote TypeScript/JavaScript tests and they pass locally
(`bun-debug test test-file-name.test`)
-->
<!-- If new methods, getters, or setters were added to a publicly
exposed class:
- [ ] I added TypeScript types for the new methods, getters, or setters
-->
<!-- If dependencies in tests changed:
- [ ] I made sure that specific versions of dependencies are used
instead of ranged or tagged versions
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<!-- If a new builtin ESM/CJS module was added:
- [ ] I updated Aliases in `module_loader.zig` to include the new module
- [ ] I added a test that imports the module
- [ ] I added a test that require() the module
-->
Add a helper type to help detect race conditions. There's no performance
or memory use penalty in release builds.
Actually adding the type to various places will be left for future PRs.
(For internal tracking: fixes STAB-852)
### What does this PR do?
fixes#6409
This PR implements `bun install` automatic migration from yarn.lock
files to bun.lock, preserving versions exactly. The migration happens
automatically when:
1. A project has a `yarn.lock` file
2. No `bun.lock` or `bun.lockb` file exists
3. User runs `bun install`
### Current Status: ✅ Complete and Working
The yarn.lock migration feature is **fully functional and
comprehensively tested**. All dependency types are supported:
- ✅ Regular npm dependencies (`package@^1.0.0`)
- ✅ Git dependencies (`git+https://github.com/user/repo.git`,
`github:user/repo`)
- ✅ NPM alias dependencies (`alias@npm:package@version`)
- ✅ File dependencies (`file:./path`)
- ✅ Remote tarball URLs (`https://registry.npmjs.org/package.tgz`)
- ✅ Local tarball files (`file:package.tgz`)
### Test Results
```bash
$ bun bd test test/cli/install/migration/yarn-lock-migration.test.ts
✅ 4 pass, 0 fail
- yarn-lock-mkdirp (basic npm dependency)
- yarn-lock-mkdirp-no-resolved (npm dependency without resolved field)
- yarn-lock-mkdirp-file-dep (file dependency)
- yarn-stuff (all complex dependency types: git, npm aliases, file, remote tarballs)
```
### How did you verify your code works?
1. **Comprehensive test suite**: Added 4 test cases covering all
dependency types
2. **Version preservation**: Verified that package versions are
preserved exactly during migration
3. **Real-world scenarios**: Tested with complex yarn.lock files
containing git deps, npm aliases, file deps, and remote tarballs
4. **Migration logging**: Confirms migration with log message `[X.XXms]
migrated lockfile from yarn.lock`
### Key Implementation Details
- **Core parser**: `src/install/yarn.zig` handles all yarn.lock parsing
and dependency type resolution
- **Integration**: Migration is built into existing lockfile loading
infrastructure
- **Performance**: Migration typically completes in ~1ms for most
projects
- **Compatibility**: Preserves exact dependency versions and resolution
behavior
The implementation correctly handles edge cases like npm aliases, git
dependencies with commits, file dependencies with transitive deps, and
remote tarballs.
---------
Co-authored-by: Jarred-Sumner <709451+Jarred-Sumner@users.noreply.github.com>
Co-authored-by: Claude Bot <claude-bot@bun.sh>
Co-authored-by: Claude <noreply@anthropic.com>
Co-authored-by: autofix-ci[bot] <114827586+autofix-ci[bot]@users.noreply.github.com>
Co-authored-by: RiskyMH <git@riskymh.dev>
Co-authored-by: RiskyMH <56214343+RiskyMH@users.noreply.github.com>
### What does this PR do?
Remove some duplicate code
### How did you verify your code works?
Ran the tests
---------
Co-authored-by: autofix-ci[bot] <114827586+autofix-ci[bot]@users.noreply.github.com>
### What does this PR do?
<!-- **Please explain what your changes do** -->
This PR should fix#14219 and implement
`WebAssembly.instantiateStreaming()` and
`WebAssembly.compileStreaming()`.
This is a mixture of WebKit's implementation (using a helper,
`handleResponseOnStreamingAction`, also containing a fast-path for
blobs) and some of Node.js's validation (error messages) and its
builtin-based strategy to consume chunks from streams.
`src/bun.js/bindings/GlobalObject.zig` has a helper function
(`getBodyStreamOrBytesForWasmStreaming`), called by C++, to validate the
response (like
[Node.js](214e4db60e/lib/internal/wasm_web_api.js)
does) and to extract the data from the response, either as a slice/span
(if we can get the data synchronously), or as a `ReadableStream` body
(if the data is still pending or if it is a file/S3 `Blob`).
In C++, `handleResponseOnStreamingAction` is called by
`compileStreaming` and `instantiateStreaming` on the
`JSC::GlobalObjectMethodTable`, just like in
[WebKit](97ee3c598a/Source/WebCore/bindings/js/JSDOMGlobalObject.cpp (L517)).
It calls the aforementioned Zig helper for validation and getting the
response data. The data is then fed into `JSC::Wasm::StreamingCompiler`.
If the data is received as a `ReadableStream`, then we call a JS builtin
in `WasmStreaming.ts` to iterate over each chunk of the stream, like
[Node.js](214e4db60e/lib/internal/wasm_web_api.js (L50-L52))
does. The `JSC::Wasm::StreamingCompiler` is passed into JS through a new
wrapper object, `WebCore::WasmStreamingCompiler`, like
[Node.js](214e4db60e/src/node_wasm_web_api.h)
does. It has `addBytes`, `finalize`, `error`, and (unused) `cancel`
methods to mirror the underlying JSC class.
(If there's a simpler way to do this, please let me know...that would be
very much appreciated)
- [x] Code changes
### How did you verify your code works?
<!-- **For code changes, please include automated tests**. Feel free to
uncomment the line below -->
I wrote automated tests (`test/js/web/fetch/wasm-streaming.test`).
<!-- If JavaScript/TypeScript modules or builtins changed: -->
- [x] I included a test for the new code, or existing tests cover it
- [x] I ran my tests locally and they pass (`bun-debug test
test/js/web/fetch/wasm-streaming.test`)
<!-- If Zig files changed: -->
- [x] I checked the lifetime of memory allocated to verify it's (1)
freed and (2) only freed when it should be (NOTE: consumed `AnyBlob`
bodies are freed, and all other allocations are in C++ and either GCed
or ref-counted)
- [x] I included a test for the new code, or an existing test covers it
(NOTE: via JS/TS unit test)
- [x] JSValue used outside of the stack is either wrapped in a
JSC.Strong or is JSValueProtect'ed (NOTE: N/A, JSValue never used
outside the stack)
- [x] I wrote TypeScript/JavaScript tests and they pass locally
(`bun-debug test test/js/web/fetch/wasm-streaming.test`)
---------
Co-authored-by: graphite-app[bot] <96075541+graphite-app[bot]@users.noreply.github.com>
Ensure we aren't using multiple allocators with the same list by storing
a pointer to the allocator in debug mode only.
This check is stricter than the bare minimum necessary to prevent
illegal behavior, so CI may reveal certain uses that fail the checks but
don't cause IB. Most of these cases should probably be updated to comply
with the new requirements—we want these types' invariants to be clear.
(For internal tracking: fixes ENG-14987)
