13a3c4de60
## Summary During `yarn.lock` migration, OS/CPU package metadata was not being fetched from the npm registry when missing from `yarn.lock`. This caused packages with platform-specific requirements to not be properly marked, potentially leading to incorrect package installation behavior. ## Changes Updated `fetchNecessaryPackageMetadataAfterYarnOrPnpmMigration` to conditionally fetch OS/CPU metadata: - **For yarn.lock migration**: Fetches OS/CPU metadata from npm registry when not present in yarn.lock (`update_os_cpu = true`) - **For pnpm-lock.yaml migration**: Skips OS/CPU fetching since pnpm-lock.yaml already includes this data (`update_os_cpu = false`) ### Files Modified - `src/install/lockfile.zig` - Added comptime `update_os_cpu` parameter and conditional logic to fetch OS/CPU metadata - `src/install/yarn.zig` - Pass `true` to enable OS/CPU fetching for yarn migrations - `src/install/pnpm.zig` - Pass `false` to skip OS/CPU fetching for pnpm migrations (already parsed from lockfile) ## Why This Approach - `yarn.lock` format often doesn't include OS/CPU constraints, requiring us to fetch from npm registry - `pnpm-lock.yaml` already parses OS/CPU during migration (lines 618-621 in pnpm.zig), making additional fetching redundant - Using a comptime parameter allows the compiler to optimize away the unused code path ## Testing - ✅ Debug build compiles successfully - Tested that the function correctly updates `pkg_meta.os` and `pkg_meta.arch` only when: - `update_os_cpu` is `true` (yarn migration) - Current values are `.all` (not already set) - Package metadata is available from npm registry 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com> --------- Co-authored-by: Claude Bot <claude-bot@bun.sh> Co-authored-by: Claude <noreply@anthropic.com> Co-authored-by: Dylan Conway <dylan.conway567@gmail.com> Co-authored-by: autofix-ci[bot] <114827586+autofix-ci[bot]@users.noreply.github.com>
Tests
Finding tests
Tests are located in the test/ directory and are organized using the following structure:
test/js/- tests for JavaScript APIs.cli/- tests for commands, configs, and stdout.bundler/- tests for the transpiler/bundler.regression/- tests that reproduce a specific issue.harness.ts- utility functions that can be imported from any test.
The tests in test/js/ directory are further categorized by the type of API.
test/js/bun/- tests forBun-specific APIs.node/- tests for Node.js APIs.web/- tests for Web APIs, likefetch().first_party/- tests for npm packages that are built-in, likeundici.third_party/- tests for npm packages that are not built-in, but are popular, likeesbuild.
Running tests
To run a test, use Bun's built-in test command: bun test.
bun test # Run all tests
bun test js/bun # Only run tests in a directory
bun test sqlite.test.ts # Only run a specific test
If you encounter lots of errors, try running bun install, then trying again.
Writing tests
Tests are written in TypeScript (preferred) or JavaScript using Jest's describe(), test(), and expect() APIs.
import { describe, test, expect } from "bun:test";
import { gcTick } from "harness";
describe("TextEncoder", () => {
test("can encode a string", async () => {
const encoder = new TextEncoder();
const actual = encoder.encode("bun");
await gcTick();
expect(actual).toBe(new Uint8Array([0x62, 0x75, 0x6E]));
});
});
If you are fixing a bug that was reported from a GitHub issue, remember to add a test in the test/regression/ directory.
// test/regression/issue/02005.test.ts
import { it, expect } from "bun:test";
it("regex literal should work with non-latin1", () => {
const text = "这是一段要替换的文字";
expect(text.replace(new RegExp("要替换"), "")).toBe("这是一段的文字");
expect(text.replace(/要替换/, "")).toBe("这是一段的文字");
});
In the future, a bot will automatically close or re-open issues when a regression is detected or resolved.
Zig tests
These tests live in various .zig files throughout Bun's codebase, leveraging Zig's builtin test keyword.
Currently, they're not run automatically nor is there a simple way to run all of them. We will make this better soon.
TypeScript
Test files should be written in TypeScript. The types in packages/bun-types should be updated to support all new APIs. Changes to the .d.ts files in packages/bun-types will be immediately reflected in test files; no build step is necessary.
Writing a test will often require using invalid syntax, e.g. when checking for errors when an invalid input is passed to a function. TypeScript provides a number of escape hatches here.
// @ts-expect-error- This should be your first choice. It tells TypeScript that the next line should fail typechecking.// @ts-ignore- Ignore the next line entirely.// @ts-nocheck- Put this at the top of the file to disable typechecking on the entire file. Useful for autogenerated test files, or when ignoring/disabling type checks an a per-line basis is too onerous.