"use strict"; // https://youtu.be/uhRWMGBjlO8?t=537 // // 1. readdir // 2. for each entry // a. if a non-empty directory, recurse // b. if an empty directory, move to random hidden file name in $TEMP // c. unlink/rmdir $TEMP // // This works around the fact that unlink/rmdir is non-atomic and takes // a non-deterministic amount of time to complete. // // However, it is HELLA SLOW, like 2-10x slower than a naive recursive rm. Object.defineProperty(exports, "__esModule", { value: true }); exports.rimrafMoveRemoveSync = exports.rimrafMoveRemove = void 0; const path_1 = require("path"); const default_tmp_js_1 = require("./default-tmp.js"); const ignore_enoent_js_1 = require("./ignore-enoent.js"); const fs_js_1 = require("./fs.js"); const { lstat, rename, unlink, rmdir, chmod } = fs_js_1.promises; const readdir_or_error_js_1 = require("./readdir-or-error.js"); // crypto.randomBytes is much slower, and Math.random() is enough here const uniqueFilename = (path) => `.${(0, path_1.basename)(path)}.${Math.random()}`; const unlinkFixEPERM = async (path) => unlink(path).catch((er) => { if (er.code === 'EPERM') { return chmod(path, 0o666).then(() => unlink(path), er2 => { if (er2.code === 'ENOENT') { return; } throw er; }); } else if (er.code === 'ENOENT') { return; } throw er; }); const unlinkFixEPERMSync = (path) => { try { (0, fs_js_1.unlinkSync)(path); } catch (er) { if (er?.code === 'EPERM') { try { return (0, fs_js_1.chmodSync)(path, 0o666); } catch (er2) { if (er2?.code === 'ENOENT') { return; } throw er; } } else if (er?.code === 'ENOENT') { return; } throw er; } }; const rimrafMoveRemove = async (path, opt) => { if (opt?.signal?.aborted) { throw opt.signal.reason; } try { return await rimrafMoveRemoveDir(path, opt, await lstat(path)); } catch (er) { if (er?.code === 'ENOENT') return true; throw er; } }; exports.rimrafMoveRemove = rimrafMoveRemove; const rimrafMoveRemoveDir = async (path, opt, ent) => { if (opt?.signal?.aborted) { throw opt.signal.reason; } if (!opt.tmp) { return rimrafMoveRemoveDir(path, { ...opt, tmp: await (0, default_tmp_js_1.defaultTmp)(path) }, ent); } if (path === opt.tmp && (0, path_1.parse)(path).root !== path) { throw new Error('cannot delete temp directory used for deletion'); } const entries = ent.isDirectory() ? await (0, readdir_or_error_js_1.readdirOrError)(path) : null; if (!Array.isArray(entries)) { // this can only happen if lstat/readdir lied, or if the dir was // swapped out with a file at just the right moment. /* c8 ignore start */ if (entries) { if (entries.code === 'ENOENT') { return true; } if (entries.code !== 'ENOTDIR') { throw entries; } } /* c8 ignore stop */ if (opt.filter && !(await opt.filter(path, ent))) { return false; } await (0, ignore_enoent_js_1.ignoreENOENT)(tmpUnlink(path, opt.tmp, unlinkFixEPERM)); return true; } const removedAll = (await Promise.all(entries.map(ent => rimrafMoveRemoveDir((0, path_1.resolve)(path, ent.name), opt, ent)))).reduce((a, b) => a && b, true); if (!removedAll) { return false; } // we don't ever ACTUALLY try to unlink /, because that can never work // but when preserveRoot is false, we could be operating on it. // No need to check if preserveRoot is not false. if (opt.preserveRoot === false && path === (0, path_1.parse)(path).root) { return false; } if (opt.filter && !(await opt.filter(path, ent))) { return false; } await (0, ignore_enoent_js_1.ignoreENOENT)(tmpUnlink(path, opt.tmp, rmdir)); return true; }; const tmpUnlink = async (path, tmp, rm) => { const tmpFile = (0, path_1.resolve)(tmp, uniqueFilename(path)); await rename(path, tmpFile); return await rm(tmpFile); }; const rimrafMoveRemoveSync = (path, opt) => { if (opt?.signal?.aborted) { throw opt.signal.reason; } try { return rimrafMoveRemoveDirSync(path, opt, (0, fs_js_1.lstatSync)(path)); } catch (er) { if (er?.code === 'ENOENT') return true; throw er; } }; exports.rimrafMoveRemoveSync = rimrafMoveRemoveSync; const rimrafMoveRemoveDirSync = (path, opt, ent) => { if (opt?.signal?.aborted) { throw opt.signal.reason; } if (!opt.tmp) { return rimrafMoveRemoveDirSync(path, { ...opt, tmp: (0, default_tmp_js_1.defaultTmpSync)(path) }, ent); } const tmp = opt.tmp; if (path === opt.tmp && (0, path_1.parse)(path).root !== path) { throw new Error('cannot delete temp directory used for deletion'); } const entries = ent.isDirectory() ? (0, readdir_or_error_js_1.readdirOrErrorSync)(path) : null; if (!Array.isArray(entries)) { // this can only happen if lstat/readdir lied, or if the dir was // swapped out with a file at just the right moment. /* c8 ignore start */ if (entries) { if (entries.code === 'ENOENT') { return true; } if (entries.code !== 'ENOTDIR') { throw entries; } } /* c8 ignore stop */ if (opt.filter && !opt.filter(path, ent)) { return false; } (0, ignore_enoent_js_1.ignoreENOENTSync)(() => tmpUnlinkSync(path, tmp, unlinkFixEPERMSync)); return true; } let removedAll = true; for (const ent of entries) { const p = (0, path_1.resolve)(path, ent.name); removedAll = rimrafMoveRemoveDirSync(p, opt, ent) && removedAll; } if (!removedAll) { return false; } if (opt.preserveRoot === false && path === (0, path_1.parse)(path).root) { return false; } if (opt.filter && !opt.filter(path, ent)) { return false; } (0, ignore_enoent_js_1.ignoreENOENTSync)(() => tmpUnlinkSync(path, tmp, fs_js_1.rmdirSync)); return true; }; const tmpUnlinkSync = (path, tmp, rmSync) => { const tmpFile = (0, path_1.resolve)(tmp, uniqueFilename(path)); (0, fs_js_1.renameSync)(path, tmpFile); return rmSync(tmpFile); }; //# sourceMappingURL=rimraf-move-remove.js.map