Files
readest/apps/readest-app/scripts/worktree-new.ts
T
Huang Xin 1a2e43e659 chore(worktree): copy src-tauri/gen/apple per-worktree so iOS builds the worktree (#4251)
Worktrees set up by `pnpm worktree:new` symlinked `src-tauri/gen/apple` back
to the bare repo. The Xcode "Run Script" build phase
(`pnpm tauri ios xcode-script`) walks up from `Readest.xcodeproj` to find
`Cargo.toml`, but the symlink target resolves to the bare repo's
`src-tauri` — so `pnpm tauri ios dev` from a worktree silently built the
bare repo's Rust source, not the worktree's.

Switch to a filtered copy. `project.yml` references `../../src` and the
xcode-script walks up to `../../Cargo.toml`; with the project copied into
the worktree, both paths resolve to the worktree's source. Mirrors what the
script already does for Android (`tauri android init` per worktree).

Skipped on the copy:

- `build/` (~300 MB of Xcode derived output)
- `Externals/<arch>/{debug,release}/` (Rust static libs — rebuilt from the
  worktree's `src-tauri` on first build; the `target/` symlink the script
  already sets up keeps the Rust object cache shared)
- per-user Xcode state (`xcuserdata`, `*.xcuserstate`)
- `Pods/` (defensive; Readest's iOS uses SPM, not Cocoapods)

Result: ~2.7 MB copy, ~30 ms locally, no `pod install`, no
`tauri ios init`. Signing config, scheme, asset catalogs and Tauri's
generated Swift glue all preserved verbatim from the bare repo.

Co-authored-by: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-21 11:13:28 +02:00

296 lines
11 KiB
TypeScript

import { execSync, type StdioOptions } from 'node:child_process';
import fs from 'node:fs';
import path from 'node:path';
// Submodules skipped during worktree setup (shared via symlinks or pre-built)
const SKIPPED_SUBMODULES = [
'apps/readest-app/.claude/skills/gstack', // shared via .claude symlink
'packages/simplecc-wasm', // built assets already in public/vendor
];
const arg = process.argv[2];
if (!arg) {
console.error('Usage: pnpm worktree:new <branch-name|pr-number>');
process.exit(1);
}
const repoRoot = execSync('git rev-parse --show-toplevel', { encoding: 'utf8' }).trim();
// Git output goes to stderr so stdout carries only the path (enables: cd $(pnpm worktree:new <arg>))
const gitStdio: StdioOptions = ['inherit', process.stderr, process.stderr];
// Fetch origin so origin/main is up to date
console.error('--- Fetching origin ---');
execSync('git fetch origin', { stdio: gitStdio, cwd: repoRoot });
let localBranch: string;
let worktreePath: string;
if (/^\d+$/.test(arg)) {
// PR number -- fetch and set up remote tracking so `git push` works (even for forks)
localBranch = `pr-${arg}`;
worktreePath = path.join(path.dirname(repoRoot), `readest-${localBranch}`);
// Get PR metadata to determine the source repo and branch
const prJson = execSync(
`gh pr view ${arg} --json headRefName,headRepositoryOwner,headRepository`,
{
encoding: 'utf8',
cwd: repoRoot,
},
);
const pr = JSON.parse(prJson) as {
headRefName: string;
headRepositoryOwner: { login: string };
headRepository: { name: string };
};
const forkOwner = pr.headRepositoryOwner.login;
const forkRepo = pr.headRepository.name;
const remoteBranch = pr.headRefName;
// Use "origin" if the PR is from the same repo, otherwise add the fork as a remote
const originUrl = execSync('git remote get-url origin', {
encoding: 'utf8',
cwd: repoRoot,
}).trim();
const isFromOrigin = originUrl.includes(`/${forkOwner}/${forkRepo}`);
const remoteName = isFromOrigin ? 'origin' : forkOwner;
if (!isFromOrigin) {
try {
execSync(`git remote get-url "${remoteName}"`, { encoding: 'utf8', cwd: repoRoot });
} catch {
execSync(`git remote add "${remoteName}" "https://github.com/${forkOwner}/${forkRepo}.git"`, {
stdio: gitStdio,
cwd: repoRoot,
});
}
}
execSync(`git fetch "${remoteName}" "${remoteBranch}:${localBranch}"`, {
stdio: gitStdio,
cwd: repoRoot,
});
execSync(`git worktree add "${worktreePath}" "${localBranch}"`, {
stdio: gitStdio,
cwd: repoRoot,
});
// Set upstream so `git push` targets the correct fork and branch.
// Use git-config directly instead of `branch --set-upstream-to` because
// the targeted fetch above doesn't create a remote-tracking ref.
execSync(`git -C "${worktreePath}" config "branch.${localBranch}.remote" "${remoteName}"`);
execSync(
`git -C "${worktreePath}" config "branch.${localBranch}.merge" "refs/heads/${remoteBranch}"`,
);
} else {
// Branch name -- slashes replaced with dashes for the directory name
localBranch = arg;
worktreePath = path.join(path.dirname(repoRoot), `readest-${arg.replace(/\//g, '-')}`);
if (fs.existsSync(worktreePath)) {
console.error(`Worktree path already exists: ${worktreePath}`);
console.error('Removing existing worktree...');
// Deinit only submodules we manage — skipped ones were never initialized
const initedSubs = execSync(
'git config --file .gitmodules --get-regexp "submodule\\..*\\.path"',
{ encoding: 'utf8', cwd: worktreePath },
)
.trim()
.split('\n')
.map((line) => line.split(/\s+/)[1]!)
.filter((p) => !SKIPPED_SUBMODULES.includes(p));
for (const sub of initedSubs) {
execSync(`git -C "${worktreePath}" submodule deinit --force -- "${sub}"`, {
stdio: gitStdio,
cwd: repoRoot,
});
}
execSync(`git worktree remove --force "${worktreePath}"`, { stdio: gitStdio, cwd: repoRoot });
}
// Check if the branch already exists
const branchExists = execSync('git branch --list --format="%(refname:short)"', {
encoding: 'utf8',
cwd: repoRoot,
})
.split('\n')
.includes(localBranch);
if (branchExists) {
execSync(`git worktree add "${worktreePath}" "${localBranch}"`, {
stdio: gitStdio,
cwd: repoRoot,
});
} else {
execSync(`git worktree add -b "${localBranch}" "${worktreePath}" origin/main`, {
stdio: gitStdio,
cwd: repoRoot,
});
}
}
// Rebase onto origin/main so the worktree starts from the latest upstream
console.error('\n--- Rebasing onto origin/main ---');
execSync('git rebase origin/main', { stdio: gitStdio, cwd: worktreePath });
// Repoint submodule URLs to local .git/modules/ clones to avoid remote fetches.
// Submodules without a local cache fall back to the remote URL.
console.error('\n--- Initializing submodules (using local objects) ---');
const gitDir = execSync('git rev-parse --git-dir', { encoding: 'utf8', cwd: repoRoot }).trim();
const absGitDir = path.resolve(repoRoot, gitDir);
const submoduleNames = execSync(
'git config --file .gitmodules --get-regexp "submodule\\..*\\.path"',
{ encoding: 'utf8', cwd: worktreePath },
)
.trim()
.split('\n')
.map((line) => {
// line: submodule.<name>.path <path>
const match = line.match(/^submodule\.(.+)\.path\s+(.+)$/);
return { name: match![1]!, subPath: match![2]! };
})
.filter(({ subPath }) => !SKIPPED_SUBMODULES.includes(subPath));
for (const { name, subPath } of submoduleNames) {
const localModuleDir = path.join(absGitDir, 'modules', subPath);
// Also check if the submodule has a full .git/ directory (cloned outside of git's modules cache)
const subGitDir = path.join(repoRoot, subPath, '.git');
let localDir: string | undefined;
if (fs.existsSync(localModuleDir)) {
localDir = localModuleDir;
console.error(` ${subPath} -> local (.git/modules)`);
} else if (fs.existsSync(subGitDir)) {
localDir = fs.statSync(subGitDir).isDirectory()
? subGitDir
: path.resolve(
path.join(repoRoot, subPath),
fs.readFileSync(subGitDir, 'utf8').replace('gitdir: ', '').trim(),
);
console.error(` ${subPath} -> local (standalone .git)`);
} else {
console.error(` ${subPath} -> remote (no local cache)`);
}
if (localDir) {
// Allow fetching any commit (not just branch tips) from the local source
execSync(`git -C "${localDir}" config uploadpack.allowAnySHA1InWant true`);
execSync(`git -C "${worktreePath}" config "submodule.${name}.url" "${localDir}"`);
}
}
for (const { subPath } of submoduleNames) {
execSync(
`git -c protocol.file.allow=always submodule update --init --recursive -- "${subPath}"`,
{ stdio: gitStdio, cwd: worktreePath },
);
}
// Restore original remote URLs so `git push` in submodules works correctly
for (const { name } of submoduleNames) {
const origUrl = execSync(`git config --file .gitmodules "submodule.${name}.url"`, {
encoding: 'utf8',
cwd: worktreePath,
}).trim();
execSync(`git -C "${worktreePath}" config "submodule.${name}.url" "${origUrl}"`);
}
// Install dependencies
console.error('\n--- Installing dependencies ---');
execSync('pnpm install', { stdio: gitStdio, cwd: worktreePath });
// Copy .env* files from the app directory to the new worktree's app directory
const appRelPath = 'apps/readest-app';
const srcAppDir = path.join(repoRoot, appRelPath);
const dstAppDir = path.join(worktreePath, appRelPath);
const envFiles = fs.readdirSync(srcAppDir).filter((f) => f.startsWith('.env'));
if (envFiles.length > 0) {
console.error(`\n--- Copying ${envFiles.length} .env* files ---`);
for (const envFile of envFiles) {
const src = path.join(srcAppDir, envFile);
const dst = path.join(dstAppDir, envFile);
if (!fs.existsSync(dst)) {
fs.copyFileSync(src, dst);
console.error(` ${envFile}`);
}
}
}
// Symlink target so the worktree shares the Rust build cache
const srcTarget = path.join(repoRoot, 'target');
const dstTarget = path.join(worktreePath, 'target');
if (fs.existsSync(srcTarget) && !fs.existsSync(dstTarget)) {
console.error('\n--- Symlinking src-tauri/target ---');
fs.symlinkSync(srcTarget, dstTarget, 'junction');
}
// Initialize Tauri Android gen directory (needs platform-specific paths regenerated)
const genDir = path.join(dstAppDir, 'src-tauri', 'gen');
const androidGenDir = path.join(genDir, 'android');
if (fs.existsSync(androidGenDir)) {
console.error('\n--- Initializing Tauri Android ---');
fs.rmSync(androidGenDir, { recursive: true });
execSync('pnpm tauri android init', { stdio: gitStdio, cwd: dstAppDir });
execSync('pnpm tauri icon ../../data/icons/readest-book.png', {
stdio: gitStdio,
cwd: dstAppDir,
});
execSync(`git checkout ${appRelPath}/src-tauri/gen/android ${appRelPath}/src-tauri/icons`, {
stdio: gitStdio,
cwd: worktreePath,
});
}
// Copy Tauri iOS gen from the bare repo, skipping rebuildable artifacts so
// the worktree owns its own Xcode project. `project.yml` and the Xcode build
// script walk up to `../../src` / `../../Cargo.toml`, which now resolve to
// the worktree's Rust source instead of the bare repo's — so `pnpm tauri ios
// dev` from a worktree actually builds the worktree's code. Symlinking
// silently routed every iOS build through the bare repo, even when running
// `pnpm tauri ios dev` from a worktree path.
//
// Skipped: `build/` (~300 MB of Xcode derived output), `Externals/<arch>/
// {debug,release}/` (Rust static libs — rebuilt against the worktree's
// src-tauri), per-user Xcode state, and `Pods/` (defensive; Readest's iOS
// uses SPM, not Cocoapods).
const appleGenDir = path.join(genDir, 'apple');
const srcAppleGen = path.join(srcAppDir, 'src-tauri', 'gen', 'apple');
if (fs.existsSync(srcAppleGen) && !fs.existsSync(appleGenDir)) {
console.error('\n--- Copying Tauri iOS gen ---');
fs.cpSync(srcAppleGen, appleGenDir, {
recursive: true,
dereference: false,
filter: (src) => {
const rel = path.relative(srcAppleGen, src);
if (rel === 'build' || rel.startsWith('build/')) return false;
if (/^Externals\/[^/]+\/(debug|release)(\/|$)/.test(rel)) return false;
if (rel.endsWith('/xcuserdata') || rel.includes('/xcuserdata/')) return false;
if (rel.endsWith('.xcuserstate')) return false;
if (rel === 'Pods' || rel.startsWith('Pods/')) return false;
return true;
},
});
}
// Symlink the remaining shared gen dirs (schemas are generated at build time
// and don't differ per branch; keystore.properties is signing config that
// must stay identical across worktrees to produce matching APKs).
for (const sub of ['schemas', 'android/keystore.properties']) {
const src = path.join(srcAppDir, 'src-tauri', 'gen', sub);
const dst = path.join(genDir, sub);
if (fs.existsSync(src) && !fs.existsSync(dst)) {
console.error(` Symlinking src-tauri/gen/${sub}`);
fs.symlinkSync(src, dst, 'junction');
}
}
// Copy public/vendor to the new worktree (built assets not in git)
const srcVendor = path.join(srcAppDir, 'public', 'vendor');
const dstVendor = path.join(dstAppDir, 'public', 'vendor');
if (fs.existsSync(srcVendor) && !fs.existsSync(dstVendor)) {
console.error('\n--- Copying public/vendor ---');
fs.cpSync(srcVendor, dstVendor, { recursive: true });
}
// Print path to stdout -- allows: cd $(pnpm worktree:new <arg>)
process.stdout.write(worktreePath + '\n');