"use strict"; var __create = Object.create; var __defProp = Object.defineProperty; var __getOwnPropDesc = Object.getOwnPropertyDescriptor; var __getOwnPropNames = Object.getOwnPropertyNames; var __getProtoOf = Object.getPrototypeOf; var __hasOwnProp = Object.prototype.hasOwnProperty; var __export = (target, all) => { for (var name in all) __defProp(target, name, { get: all[name], enumerable: true }); }; var __copyProps = (to, from, except, desc) => { if (from && typeof from === "object" || typeof from === "function") { for (let key of __getOwnPropNames(from)) if (!__hasOwnProp.call(to, key) && key !== except) __defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable }); } return to; }; var __toESM = (mod, isNodeMode, target) => (target = mod != null ? __create(__getProtoOf(mod)) : {}, __copyProps( // If the importer is in node compatibility mode or this is not an ESM // file that has been converted to a CommonJS file using a Babel- // compatible transform (i.e. "__esModule" has not been set), then set // "default" to the CommonJS "module.exports" for node compatibility. isNodeMode || !mod || !mod.__esModule ? __defProp(target, "default", { value: mod, enumerable: true }) : target, mod )); var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod); var chunk_J5S3UHYB_exports = {}; __export(chunk_J5S3UHYB_exports, { download: () => download, getBinaryName: () => getBinaryName, getVersion: () => getVersion, maybeCopyToTmp: () => maybeCopyToTmp, plusX: () => plusX, vercelPkgPathRegex: () => vercelPkgPathRegex }); module.exports = __toCommonJS(chunk_J5S3UHYB_exports); var import_chunk_MWVY55RY = require("./chunk-MWVY55RY.js"); var import_chunk_7JLQJWOR = require("./chunk-7JLQJWOR.js"); var import_chunk_3VVCXIQ5 = require("./chunk-3VVCXIQ5.js"); var import_chunk_CY52DY2B = require("./chunk-CY52DY2B.js"); var import_chunk_LONQL55G = require("./chunk-LONQL55G.js"); var import_chunk_QFA3XBMW = require("./chunk-QFA3XBMW.js"); var import_chunk_FKGWOTGU = require("./chunk-FKGWOTGU.js"); var import_chunk_QGM4M3NI = require("./chunk-QGM4M3NI.js"); var import_node_fs = __toESM(require("node:fs")); var import_node_path = __toESM(require("node:path")); var import_node_util = require("node:util"); var import_debug = __toESM(require("@prisma/debug")); var import_get_platform = require("@prisma/get-platform"); var import_node_buffer = require("node:buffer"); var import_node_path2 = __toESM(require("node:path")); var import_node_child_process = __toESM(require("node:child_process")); var import_node_process = __toESM(require("node:process")); var import_node_process2 = __toESM(require("node:process")); var import_node_path3 = __toESM(require("node:path")); var import_node_url = require("node:url"); var import_node_process3 = __toESM(require("node:process")); var import_node_os = require("node:os"); var import_node_os2 = require("node:os"); var import_node_os3 = __toESM(require("node:os")); var import_node_fs2 = require("node:fs"); var import_node_child_process2 = require("node:child_process"); var import_node_fs3 = require("node:fs"); var import_promises = require("node:timers/promises"); var import_node_buffer2 = require("node:buffer"); var import_node_child_process3 = require("node:child_process"); var import_node_util2 = require("node:util"); var import_node_process4 = __toESM(require("node:process")); var require_windows = (0, import_chunk_QGM4M3NI.__commonJS)({ "../../node_modules/.pnpm/isexe@2.0.0/node_modules/isexe/windows.js"(exports, module2) { "use strict"; module2.exports = isexe; isexe.sync = sync; var fs2 = (0, import_chunk_QGM4M3NI.__require)("fs"); function checkPathExt(path4, options) { var pathext = options.pathExt !== void 0 ? options.pathExt : process.env.PATHEXT; if (!pathext) { return true; } pathext = pathext.split(";"); if (pathext.indexOf("") !== -1) { return true; } for (var i = 0; i < pathext.length; i++) { var p = pathext[i].toLowerCase(); if (p && path4.substr(-p.length).toLowerCase() === p) { return true; } } return false; } function checkStat(stat, path4, options) { if (!stat.isSymbolicLink() && !stat.isFile()) { return false; } return checkPathExt(path4, options); } function isexe(path4, options, cb) { fs2.stat(path4, function(er, stat) { cb(er, er ? false : checkStat(stat, path4, options)); }); } function sync(path4, options) { return checkStat(fs2.statSync(path4), path4, options); } } }); var require_mode = (0, import_chunk_QGM4M3NI.__commonJS)({ "../../node_modules/.pnpm/isexe@2.0.0/node_modules/isexe/mode.js"(exports, module2) { "use strict"; module2.exports = isexe; isexe.sync = sync; var fs2 = (0, import_chunk_QGM4M3NI.__require)("fs"); function isexe(path4, options, cb) { fs2.stat(path4, function(er, stat) { cb(er, er ? false : checkStat(stat, options)); }); } function sync(path4, options) { return checkStat(fs2.statSync(path4), options); } function checkStat(stat, options) { return stat.isFile() && checkMode(stat, options); } function checkMode(stat, options) { var mod = stat.mode; var uid = stat.uid; var gid = stat.gid; var myUid = options.uid !== void 0 ? options.uid : process.getuid && process.getuid(); var myGid = options.gid !== void 0 ? options.gid : process.getgid && process.getgid(); var u = parseInt("100", 8); var g = parseInt("010", 8); var o = parseInt("001", 8); var ug = u | g; var ret = mod & o || mod & g && gid === myGid || mod & u && uid === myUid || mod & ug && myUid === 0; return ret; } } }); var require_isexe = (0, import_chunk_QGM4M3NI.__commonJS)({ "../../node_modules/.pnpm/isexe@2.0.0/node_modules/isexe/index.js"(exports, module2) { "use strict"; var fs2 = (0, import_chunk_QGM4M3NI.__require)("fs"); var core; if (process.platform === "win32" || global.TESTING_WINDOWS) { core = require_windows(); } else { core = require_mode(); } module2.exports = isexe; isexe.sync = sync; function isexe(path4, options, cb) { if (typeof options === "function") { cb = options; options = {}; } if (!cb) { if (typeof Promise !== "function") { throw new TypeError("callback not provided"); } return new Promise(function(resolve, reject) { isexe(path4, options || {}, function(er, is) { if (er) { reject(er); } else { resolve(is); } }); }); } core(path4, options || {}, function(er, is) { if (er) { if (er.code === "EACCES" || options && options.ignoreErrors) { er = null; is = false; } } cb(er, is); }); } function sync(path4, options) { try { return core.sync(path4, options || {}); } catch (er) { if (options && options.ignoreErrors || er.code === "EACCES") { return false; } else { throw er; } } } } }); var require_which = (0, import_chunk_QGM4M3NI.__commonJS)({ "../../node_modules/.pnpm/which@2.0.2/node_modules/which/which.js"(exports, module2) { "use strict"; var isWindows = process.platform === "win32" || process.env.OSTYPE === "cygwin" || process.env.OSTYPE === "msys"; var path4 = (0, import_chunk_QGM4M3NI.__require)("path"); var COLON = isWindows ? ";" : ":"; var isexe = require_isexe(); var getNotFoundError = (cmd) => Object.assign(new Error(`not found: ${cmd}`), { code: "ENOENT" }); var getPathInfo = (cmd, opt) => { const colon = opt.colon || COLON; const pathEnv = cmd.match(/\//) || isWindows && cmd.match(/\\/) ? [""] : [ // windows always checks the cwd first ...isWindows ? [process.cwd()] : [], ...(opt.path || process.env.PATH || /* istanbul ignore next: very unusual */ "").split(colon) ]; const pathExtExe = isWindows ? opt.pathExt || process.env.PATHEXT || ".EXE;.CMD;.BAT;.COM" : ""; const pathExt = isWindows ? pathExtExe.split(colon) : [""]; if (isWindows) { if (cmd.indexOf(".") !== -1 && pathExt[0] !== "") pathExt.unshift(""); } return { pathEnv, pathExt, pathExtExe }; }; var which = (cmd, opt, cb) => { if (typeof opt === "function") { cb = opt; opt = {}; } if (!opt) opt = {}; const { pathEnv, pathExt, pathExtExe } = getPathInfo(cmd, opt); const found = []; const step = (i) => new Promise((resolve, reject) => { if (i === pathEnv.length) return opt.all && found.length ? resolve(found) : reject(getNotFoundError(cmd)); const ppRaw = pathEnv[i]; const pathPart = /^".*"$/.test(ppRaw) ? ppRaw.slice(1, -1) : ppRaw; const pCmd = path4.join(pathPart, cmd); const p = !pathPart && /^\.[\\\/]/.test(cmd) ? cmd.slice(0, 2) + pCmd : pCmd; resolve(subStep(p, i, 0)); }); const subStep = (p, i, ii) => new Promise((resolve, reject) => { if (ii === pathExt.length) return resolve(step(i + 1)); const ext = pathExt[ii]; isexe(p + ext, { pathExt: pathExtExe }, (er, is) => { if (!er && is) { if (opt.all) found.push(p + ext); else return resolve(p + ext); } return resolve(subStep(p, i, ii + 1)); }); }); return cb ? step(0).then((res) => cb(null, res), cb) : step(0); }; var whichSync = (cmd, opt) => { opt = opt || {}; const { pathEnv, pathExt, pathExtExe } = getPathInfo(cmd, opt); const found = []; for (let i = 0; i < pathEnv.length; i++) { const ppRaw = pathEnv[i]; const pathPart = /^".*"$/.test(ppRaw) ? ppRaw.slice(1, -1) : ppRaw; const pCmd = path4.join(pathPart, cmd); const p = !pathPart && /^\.[\\\/]/.test(cmd) ? cmd.slice(0, 2) + pCmd : pCmd; for (let j = 0; j < pathExt.length; j++) { const cur = p + pathExt[j]; try { const is = isexe.sync(cur, { pathExt: pathExtExe }); if (is) { if (opt.all) found.push(cur); else return cur; } } catch (ex) { } } } if (opt.all && found.length) return found; if (opt.nothrow) return null; throw getNotFoundError(cmd); }; module2.exports = which; which.sync = whichSync; } }); var require_path_key = (0, import_chunk_QGM4M3NI.__commonJS)({ "../../node_modules/.pnpm/path-key@3.1.1/node_modules/path-key/index.js"(exports, module2) { "use strict"; var pathKey2 = (options = {}) => { const environment = options.env || process.env; const platform = options.platform || process.platform; if (platform !== "win32") { return "PATH"; } return Object.keys(environment).reverse().find((key) => key.toUpperCase() === "PATH") || "Path"; }; module2.exports = pathKey2; module2.exports.default = pathKey2; } }); var require_resolveCommand = (0, import_chunk_QGM4M3NI.__commonJS)({ "../../node_modules/.pnpm/cross-spawn@7.0.6/node_modules/cross-spawn/lib/util/resolveCommand.js"(exports, module2) { "use strict"; var path4 = (0, import_chunk_QGM4M3NI.__require)("path"); var which = require_which(); var getPathKey = require_path_key(); function resolveCommandAttempt(parsed, withoutPathExt) { const env = parsed.options.env || process.env; const cwd = process.cwd(); const hasCustomCwd = parsed.options.cwd != null; const shouldSwitchCwd = hasCustomCwd && process.chdir !== void 0 && !process.chdir.disabled; if (shouldSwitchCwd) { try { process.chdir(parsed.options.cwd); } catch (err) { } } let resolved; try { resolved = which.sync(parsed.command, { path: env[getPathKey({ env })], pathExt: withoutPathExt ? path4.delimiter : void 0 }); } catch (e) { } finally { if (shouldSwitchCwd) { process.chdir(cwd); } } if (resolved) { resolved = path4.resolve(hasCustomCwd ? parsed.options.cwd : "", resolved); } return resolved; } function resolveCommand(parsed) { return resolveCommandAttempt(parsed) || resolveCommandAttempt(parsed, true); } module2.exports = resolveCommand; } }); var require_escape = (0, import_chunk_QGM4M3NI.__commonJS)({ "../../node_modules/.pnpm/cross-spawn@7.0.6/node_modules/cross-spawn/lib/util/escape.js"(exports, module2) { "use strict"; var metaCharsRegExp = /([()\][%!^"`<>&|;, *?])/g; function escapeCommand(arg) { arg = arg.replace(metaCharsRegExp, "^$1"); return arg; } function escapeArgument(arg, doubleEscapeMetaChars) { arg = `${arg}`; arg = arg.replace(/(?=(\\+?)?)\1"/g, '$1$1\\"'); arg = arg.replace(/(?=(\\+?)?)\1$/, "$1$1"); arg = `"${arg}"`; arg = arg.replace(metaCharsRegExp, "^$1"); if (doubleEscapeMetaChars) { arg = arg.replace(metaCharsRegExp, "^$1"); } return arg; } module2.exports.command = escapeCommand; module2.exports.argument = escapeArgument; } }); var require_shebang_regex = (0, import_chunk_QGM4M3NI.__commonJS)({ "../../node_modules/.pnpm/shebang-regex@3.0.0/node_modules/shebang-regex/index.js"(exports, module2) { "use strict"; module2.exports = /^#!(.*)/; } }); var require_shebang_command = (0, import_chunk_QGM4M3NI.__commonJS)({ "../../node_modules/.pnpm/shebang-command@2.0.0/node_modules/shebang-command/index.js"(exports, module2) { "use strict"; var shebangRegex = require_shebang_regex(); module2.exports = (string = "") => { const match = string.match(shebangRegex); if (!match) { return null; } const [path4, argument] = match[0].replace(/#! ?/, "").split(" "); const binary = path4.split("/").pop(); if (binary === "env") { return argument; } return argument ? `${binary} ${argument}` : binary; }; } }); var require_readShebang = (0, import_chunk_QGM4M3NI.__commonJS)({ "../../node_modules/.pnpm/cross-spawn@7.0.6/node_modules/cross-spawn/lib/util/readShebang.js"(exports, module2) { "use strict"; var fs2 = (0, import_chunk_QGM4M3NI.__require)("fs"); var shebangCommand = require_shebang_command(); function readShebang(command) { const size = 150; const buffer = Buffer.alloc(size); let fd; try { fd = fs2.openSync(command, "r"); fs2.readSync(fd, buffer, 0, size, 0); fs2.closeSync(fd); } catch (e) { } return shebangCommand(buffer.toString()); } module2.exports = readShebang; } }); var require_parse = (0, import_chunk_QGM4M3NI.__commonJS)({ "../../node_modules/.pnpm/cross-spawn@7.0.6/node_modules/cross-spawn/lib/parse.js"(exports, module2) { "use strict"; var path4 = (0, import_chunk_QGM4M3NI.__require)("path"); var resolveCommand = require_resolveCommand(); var escape = require_escape(); var readShebang = require_readShebang(); var isWin = process.platform === "win32"; var isExecutableRegExp = /\.(?:com|exe)$/i; var isCmdShimRegExp = /node_modules[\\/].bin[\\/][^\\/]+\.cmd$/i; function detectShebang(parsed) { parsed.file = resolveCommand(parsed); const shebang = parsed.file && readShebang(parsed.file); if (shebang) { parsed.args.unshift(parsed.file); parsed.command = shebang; return resolveCommand(parsed); } return parsed.file; } function parseNonShell(parsed) { if (!isWin) { return parsed; } const commandFile = detectShebang(parsed); const needsShell = !isExecutableRegExp.test(commandFile); if (parsed.options.forceShell || needsShell) { const needsDoubleEscapeMetaChars = isCmdShimRegExp.test(commandFile); parsed.command = path4.normalize(parsed.command); parsed.command = escape.command(parsed.command); parsed.args = parsed.args.map((arg) => escape.argument(arg, needsDoubleEscapeMetaChars)); const shellCommand = [parsed.command].concat(parsed.args).join(" "); parsed.args = ["/d", "/s", "/c", `"${shellCommand}"`]; parsed.command = process.env.comspec || "cmd.exe"; parsed.options.windowsVerbatimArguments = true; } return parsed; } function parse(command, args, options) { if (args && !Array.isArray(args)) { options = args; args = null; } args = args ? args.slice(0) : []; options = Object.assign({}, options); const parsed = { command, args, options, file: void 0, original: { command, args } }; return options.shell ? parsed : parseNonShell(parsed); } module2.exports = parse; } }); var require_enoent = (0, import_chunk_QGM4M3NI.__commonJS)({ "../../node_modules/.pnpm/cross-spawn@7.0.6/node_modules/cross-spawn/lib/enoent.js"(exports, module2) { "use strict"; var isWin = process.platform === "win32"; function notFoundError(original, syscall) { return Object.assign(new Error(`${syscall} ${original.command} ENOENT`), { code: "ENOENT", errno: "ENOENT", syscall: `${syscall} ${original.command}`, path: original.command, spawnargs: original.args }); } function hookChildProcess(cp, parsed) { if (!isWin) { return; } const originalEmit = cp.emit; cp.emit = function(name, arg1) { if (name === "exit") { const err = verifyENOENT(arg1, parsed); if (err) { return originalEmit.call(cp, "error", err); } } return originalEmit.apply(cp, arguments); }; } function verifyENOENT(status, parsed) { if (isWin && status === 1 && !parsed.file) { return notFoundError(parsed.original, "spawn"); } return null; } function verifyENOENTSync(status, parsed) { if (isWin && status === 1 && !parsed.file) { return notFoundError(parsed.original, "spawnSync"); } return null; } module2.exports = { hookChildProcess, verifyENOENT, verifyENOENTSync, notFoundError }; } }); var require_cross_spawn = (0, import_chunk_QGM4M3NI.__commonJS)({ "../../node_modules/.pnpm/cross-spawn@7.0.6/node_modules/cross-spawn/index.js"(exports, module2) { "use strict"; var cp = (0, import_chunk_QGM4M3NI.__require)("child_process"); var parse = require_parse(); var enoent = require_enoent(); function spawn(command, args, options) { const parsed = parse(command, args, options); const spawned = cp.spawn(parsed.command, parsed.args, parsed.options); enoent.hookChildProcess(spawned, parsed); return spawned; } function spawnSync(command, args, options) { const parsed = parse(command, args, options); const result = cp.spawnSync(parsed.command, parsed.args, parsed.options); result.error = result.error || enoent.verifyENOENTSync(result.status, parsed); return result; } module2.exports = spawn; module2.exports.spawn = spawn; module2.exports.sync = spawnSync; module2.exports._parse = parse; module2.exports._enoent = enoent; } }); var require_merge_stream = (0, import_chunk_QGM4M3NI.__commonJS)({ "../../node_modules/.pnpm/merge-stream@2.0.0/node_modules/merge-stream/index.js"(exports, module2) { "use strict"; var { PassThrough } = (0, import_chunk_QGM4M3NI.__require)("stream"); module2.exports = function() { var sources = []; var output = new PassThrough({ objectMode: true }); output.setMaxListeners(0); output.add = add; output.isEmpty = isEmpty; output.on("unpipe", remove); Array.prototype.slice.call(arguments).forEach(add); return output; function add(source) { if (Array.isArray(source)) { source.forEach(add); return this; } sources.push(source); source.once("end", remove.bind(null, source)); source.once("error", output.emit.bind(output, "error")); source.pipe(output, { end: false }); return this; } function isEmpty() { return sources.length == 0; } function remove(source) { sources = sources.filter(function(it) { return it !== source; }); if (!sources.length && output.readable) { output.end(); } } }; } }); var require_package = (0, import_chunk_QGM4M3NI.__commonJS)({ "package.json"(exports, module2) { module2.exports = { name: "@prisma/fetch-engine", version: "6.19.2", description: "This package is intended for Prisma's internal use", main: "dist/index.js", types: "dist/index.d.ts", license: "Apache-2.0", author: "Tim Suchanek ", homepage: "https://www.prisma.io", repository: { type: "git", url: "https://github.com/prisma/prisma.git", directory: "packages/fetch-engine" }, bugs: "https://github.com/prisma/prisma/issues", enginesOverride: {}, devDependencies: { "@types/node": "18.19.76", "@types/progress": "2.0.7", del: "6.1.1", execa: "8.0.1", "find-cache-dir": "5.0.0", "fs-extra": "11.3.0", hasha: "5.2.2", "http-proxy-agent": "7.0.2", "https-proxy-agent": "7.0.6", kleur: "4.1.5", "node-fetch": "3.3.2", "p-filter": "4.1.0", "p-map": "4.0.0", "p-retry": "4.6.2", progress: "2.0.3", "temp-dir": "2.0.0", tempy: "1.0.1", "timeout-signal": "2.0.0", typescript: "5.4.5" }, dependencies: { "@prisma/debug": "workspace:*", "@prisma/engines-version": "7.1.1-3.c2990dca591cba766e3b7ef5d9e8a84796e47ab7", "@prisma/get-platform": "workspace:*" }, scripts: { dev: "DEV=true tsx helpers/build.ts", build: "tsx helpers/build.ts", test: "vitest run", prepublishOnly: "pnpm run build" }, files: [ "README.md", "dist" ], sideEffects: false }; } }); var import_cross_spawn = (0, import_chunk_QGM4M3NI.__toESM)(require_cross_spawn(), 1); function stripFinalNewline(input) { const LF = typeof input === "string" ? "\n" : "\n".charCodeAt(); const CR = typeof input === "string" ? "\r" : "\r".charCodeAt(); if (input[input.length - 1] === LF) { input = input.slice(0, -1); } if (input[input.length - 1] === CR) { input = input.slice(0, -1); } return input; } function pathKey(options = {}) { const { env = process.env, platform = process.platform } = options; if (platform !== "win32") { return "PATH"; } return Object.keys(env).reverse().find((key) => key.toUpperCase() === "PATH") || "Path"; } var npmRunPath = ({ cwd = import_node_process2.default.cwd(), path: pathOption = import_node_process2.default.env[pathKey()], preferLocal = true, execPath = import_node_process2.default.execPath, addExecPath = true } = {}) => { const cwdString = cwd instanceof URL ? (0, import_node_url.fileURLToPath)(cwd) : cwd; const cwdPath = import_node_path3.default.resolve(cwdString); const result = []; if (preferLocal) { applyPreferLocal(result, cwdPath); } if (addExecPath) { applyExecPath(result, execPath, cwdPath); } return [...result, pathOption].join(import_node_path3.default.delimiter); }; var applyPreferLocal = (result, cwdPath) => { let previous; while (previous !== cwdPath) { result.push(import_node_path3.default.join(cwdPath, "node_modules/.bin")); previous = cwdPath; cwdPath = import_node_path3.default.resolve(cwdPath, ".."); } }; var applyExecPath = (result, execPath, cwdPath) => { const execPathString = execPath instanceof URL ? (0, import_node_url.fileURLToPath)(execPath) : execPath; result.push(import_node_path3.default.resolve(cwdPath, execPathString, "..")); }; var npmRunPathEnv = ({ env = import_node_process2.default.env, ...options } = {}) => { env = { ...env }; const pathName = pathKey({ env }); options.path = env[pathName]; env[pathName] = npmRunPath(options); return env; }; var copyProperty = (to, from, property, ignoreNonConfigurable) => { if (property === "length" || property === "prototype") { return; } if (property === "arguments" || property === "caller") { return; } const toDescriptor = Object.getOwnPropertyDescriptor(to, property); const fromDescriptor = Object.getOwnPropertyDescriptor(from, property); if (!canCopyProperty(toDescriptor, fromDescriptor) && ignoreNonConfigurable) { return; } Object.defineProperty(to, property, fromDescriptor); }; var canCopyProperty = function(toDescriptor, fromDescriptor) { return toDescriptor === void 0 || toDescriptor.configurable || toDescriptor.writable === fromDescriptor.writable && toDescriptor.enumerable === fromDescriptor.enumerable && toDescriptor.configurable === fromDescriptor.configurable && (toDescriptor.writable || toDescriptor.value === fromDescriptor.value); }; var changePrototype = (to, from) => { const fromPrototype = Object.getPrototypeOf(from); if (fromPrototype === Object.getPrototypeOf(to)) { return; } Object.setPrototypeOf(to, fromPrototype); }; var wrappedToString = (withName, fromBody) => `/* Wrapped ${withName}*/ ${fromBody}`; var toStringDescriptor = Object.getOwnPropertyDescriptor(Function.prototype, "toString"); var toStringName = Object.getOwnPropertyDescriptor(Function.prototype.toString, "name"); var changeToString = (to, from, name) => { const withName = name === "" ? "" : `with ${name.trim()}() `; const newToString = wrappedToString.bind(null, withName, from.toString()); Object.defineProperty(newToString, "name", toStringName); Object.defineProperty(to, "toString", { ...toStringDescriptor, value: newToString }); }; function mimicFunction(to, from, { ignoreNonConfigurable = false } = {}) { const { name } = to; for (const property of Reflect.ownKeys(from)) { copyProperty(to, from, property, ignoreNonConfigurable); } changePrototype(to, from); changeToString(to, from, name); return to; } var calledFunctions = /* @__PURE__ */ new WeakMap(); var onetime = (function_, options = {}) => { if (typeof function_ !== "function") { throw new TypeError("Expected a function"); } let returnValue; let callCount = 0; const functionName = function_.displayName || function_.name || ""; const onetime2 = function(...arguments_) { calledFunctions.set(onetime2, ++callCount); if (callCount === 1) { returnValue = function_.apply(this, arguments_); function_ = null; } else if (options.throw === true) { throw new Error(`Function \`${functionName}\` can only be called once`); } return returnValue; }; mimicFunction(onetime2, function_); calledFunctions.set(onetime2, callCount); return onetime2; }; onetime.callCount = (function_) => { if (!calledFunctions.has(function_)) { throw new Error(`The given function \`${function_.name}\` is not wrapped by the \`onetime\` package`); } return calledFunctions.get(function_); }; var onetime_default = onetime; var getRealtimeSignals = () => { const length = SIGRTMAX - SIGRTMIN + 1; return Array.from({ length }, getRealtimeSignal); }; var getRealtimeSignal = (value, index) => ({ name: `SIGRT${index + 1}`, number: SIGRTMIN + index, action: "terminate", description: "Application-specific signal (realtime)", standard: "posix" }); var SIGRTMIN = 34; var SIGRTMAX = 64; var SIGNALS = [ { name: "SIGHUP", number: 1, action: "terminate", description: "Terminal closed", standard: "posix" }, { name: "SIGINT", number: 2, action: "terminate", description: "User interruption with CTRL-C", standard: "ansi" }, { name: "SIGQUIT", number: 3, action: "core", description: "User interruption with CTRL-\\", standard: "posix" }, { name: "SIGILL", number: 4, action: "core", description: "Invalid machine instruction", standard: "ansi" }, { name: "SIGTRAP", number: 5, action: "core", description: "Debugger breakpoint", standard: "posix" }, { name: "SIGABRT", number: 6, action: "core", description: "Aborted", standard: "ansi" }, { name: "SIGIOT", number: 6, action: "core", description: "Aborted", standard: "bsd" }, { name: "SIGBUS", number: 7, action: "core", description: "Bus error due to misaligned, non-existing address or paging error", standard: "bsd" }, { name: "SIGEMT", number: 7, action: "terminate", description: "Command should be emulated but is not implemented", standard: "other" }, { name: "SIGFPE", number: 8, action: "core", description: "Floating point arithmetic error", standard: "ansi" }, { name: "SIGKILL", number: 9, action: "terminate", description: "Forced termination", standard: "posix", forced: true }, { name: "SIGUSR1", number: 10, action: "terminate", description: "Application-specific signal", standard: "posix" }, { name: "SIGSEGV", number: 11, action: "core", description: "Segmentation fault", standard: "ansi" }, { name: "SIGUSR2", number: 12, action: "terminate", description: "Application-specific signal", standard: "posix" }, { name: "SIGPIPE", number: 13, action: "terminate", description: "Broken pipe or socket", standard: "posix" }, { name: "SIGALRM", number: 14, action: "terminate", description: "Timeout or timer", standard: "posix" }, { name: "SIGTERM", number: 15, action: "terminate", description: "Termination", standard: "ansi" }, { name: "SIGSTKFLT", number: 16, action: "terminate", description: "Stack is empty or overflowed", standard: "other" }, { name: "SIGCHLD", number: 17, action: "ignore", description: "Child process terminated, paused or unpaused", standard: "posix" }, { name: "SIGCLD", number: 17, action: "ignore", description: "Child process terminated, paused or unpaused", standard: "other" }, { name: "SIGCONT", number: 18, action: "unpause", description: "Unpaused", standard: "posix", forced: true }, { name: "SIGSTOP", number: 19, action: "pause", description: "Paused", standard: "posix", forced: true }, { name: "SIGTSTP", number: 20, action: "pause", description: 'Paused using CTRL-Z or "suspend"', standard: "posix" }, { name: "SIGTTIN", number: 21, action: "pause", description: "Background process cannot read terminal input", standard: "posix" }, { name: "SIGBREAK", number: 21, action: "terminate", description: "User interruption with CTRL-BREAK", standard: "other" }, { name: "SIGTTOU", number: 22, action: "pause", description: "Background process cannot write to terminal output", standard: "posix" }, { name: "SIGURG", number: 23, action: "ignore", description: "Socket received out-of-band data", standard: "bsd" }, { name: "SIGXCPU", number: 24, action: "core", description: "Process timed out", standard: "bsd" }, { name: "SIGXFSZ", number: 25, action: "core", description: "File too big", standard: "bsd" }, { name: "SIGVTALRM", number: 26, action: "terminate", description: "Timeout or timer", standard: "bsd" }, { name: "SIGPROF", number: 27, action: "terminate", description: "Timeout or timer", standard: "bsd" }, { name: "SIGWINCH", number: 28, action: "ignore", description: "Terminal window size changed", standard: "bsd" }, { name: "SIGIO", number: 29, action: "terminate", description: "I/O is available", standard: "other" }, { name: "SIGPOLL", number: 29, action: "terminate", description: "Watched event", standard: "other" }, { name: "SIGINFO", number: 29, action: "ignore", description: "Request for process information", standard: "other" }, { name: "SIGPWR", number: 30, action: "terminate", description: "Device running out of power", standard: "systemv" }, { name: "SIGSYS", number: 31, action: "core", description: "Invalid system call", standard: "other" }, { name: "SIGUNUSED", number: 31, action: "terminate", description: "Invalid system call", standard: "other" } ]; var getSignals = () => { const realtimeSignals = getRealtimeSignals(); const signals2 = [...SIGNALS, ...realtimeSignals].map(normalizeSignal); return signals2; }; var normalizeSignal = ({ name, number: defaultNumber, description, action, forced = false, standard }) => { const { signals: { [name]: constantSignal } } = import_node_os2.constants; const supported = constantSignal !== void 0; const number = supported ? constantSignal : defaultNumber; return { name, number, description, supported, action, forced, standard }; }; var getSignalsByName = () => { const signals2 = getSignals(); return Object.fromEntries(signals2.map(getSignalByName)); }; var getSignalByName = ({ name, number, description, supported, action, forced, standard }) => [name, { name, number, description, supported, action, forced, standard }]; var signalsByName = getSignalsByName(); var getSignalsByNumber = () => { const signals2 = getSignals(); const length = SIGRTMAX + 1; const signalsA = Array.from( { length }, (value, number) => getSignalByNumber(number, signals2) ); return Object.assign({}, ...signalsA); }; var getSignalByNumber = (number, signals2) => { const signal = findSignalByNumber(number, signals2); if (signal === void 0) { return {}; } const { name, description, supported, action, forced, standard } = signal; return { [number]: { name, number, description, supported, action, forced, standard } }; }; var findSignalByNumber = (number, signals2) => { const signal = signals2.find(({ name }) => import_node_os.constants.signals[name] === number); if (signal !== void 0) { return signal; } return signals2.find((signalA) => signalA.number === number); }; var signalsByNumber = getSignalsByNumber(); var getErrorPrefix = ({ timedOut, timeout, errorCode, signal, signalDescription, exitCode, isCanceled }) => { if (timedOut) { return `timed out after ${timeout} milliseconds`; } if (isCanceled) { return "was canceled"; } if (errorCode !== void 0) { return `failed with ${errorCode}`; } if (signal !== void 0) { return `was killed with ${signal} (${signalDescription})`; } if (exitCode !== void 0) { return `failed with exit code ${exitCode}`; } return "failed"; }; var makeError = ({ stdout, stderr, all, error, signal, exitCode, command, escapedCommand, timedOut, isCanceled, killed, parsed: { options: { timeout, cwd = import_node_process3.default.cwd() } } }) => { exitCode = exitCode === null ? void 0 : exitCode; signal = signal === null ? void 0 : signal; const signalDescription = signal === void 0 ? void 0 : signalsByName[signal].description; const errorCode = error && error.code; const prefix = getErrorPrefix({ timedOut, timeout, errorCode, signal, signalDescription, exitCode, isCanceled }); const execaMessage = `Command ${prefix}: ${command}`; const isError = Object.prototype.toString.call(error) === "[object Error]"; const shortMessage = isError ? `${execaMessage} ${error.message}` : execaMessage; const message = [shortMessage, stderr, stdout].filter(Boolean).join("\n"); if (isError) { error.originalMessage = error.message; error.message = message; } else { error = new Error(message); } error.shortMessage = shortMessage; error.command = command; error.escapedCommand = escapedCommand; error.exitCode = exitCode; error.signal = signal; error.signalDescription = signalDescription; error.stdout = stdout; error.stderr = stderr; error.cwd = cwd; if (all !== void 0) { error.all = all; } if ("bufferedData" in error) { delete error.bufferedData; } error.failed = true; error.timedOut = Boolean(timedOut); error.isCanceled = isCanceled; error.killed = killed && !timedOut; return error; }; var aliases = ["stdin", "stdout", "stderr"]; var hasAlias = (options) => aliases.some((alias) => options[alias] !== void 0); var normalizeStdio = (options) => { if (!options) { return; } const { stdio } = options; if (stdio === void 0) { return aliases.map((alias) => options[alias]); } if (hasAlias(options)) { throw new Error(`It's not possible to provide \`stdio\` in combination with one of ${aliases.map((alias) => `\`${alias}\``).join(", ")}`); } if (typeof stdio === "string") { return stdio; } if (!Array.isArray(stdio)) { throw new TypeError(`Expected \`stdio\` to be of type \`string\` or \`Array\`, got \`${typeof stdio}\``); } const length = Math.max(stdio.length, aliases.length); return Array.from({ length }, (value, index) => stdio[index]); }; var signals = []; signals.push("SIGHUP", "SIGINT", "SIGTERM"); if (process.platform !== "win32") { signals.push( "SIGALRM", "SIGABRT", "SIGVTALRM", "SIGXCPU", "SIGXFSZ", "SIGUSR2", "SIGTRAP", "SIGSYS", "SIGQUIT", "SIGIOT" // should detect profiler and enable/disable accordingly. // see #21 // 'SIGPROF' ); } if (process.platform === "linux") { signals.push("SIGIO", "SIGPOLL", "SIGPWR", "SIGSTKFLT"); } var processOk = (process7) => !!process7 && typeof process7 === "object" && typeof process7.removeListener === "function" && typeof process7.emit === "function" && typeof process7.reallyExit === "function" && typeof process7.listeners === "function" && typeof process7.kill === "function" && typeof process7.pid === "number" && typeof process7.on === "function"; var kExitEmitter = Symbol.for("signal-exit emitter"); var global2 = globalThis; var ObjectDefineProperty = Object.defineProperty.bind(Object); var Emitter = class { emitted = { afterExit: false, exit: false }; listeners = { afterExit: [], exit: [] }; count = 0; id = Math.random(); constructor() { if (global2[kExitEmitter]) { return global2[kExitEmitter]; } ObjectDefineProperty(global2, kExitEmitter, { value: this, writable: false, enumerable: false, configurable: false }); } on(ev, fn) { this.listeners[ev].push(fn); } removeListener(ev, fn) { const list = this.listeners[ev]; const i = list.indexOf(fn); if (i === -1) { return; } if (i === 0 && list.length === 1) { list.length = 0; } else { list.splice(i, 1); } } emit(ev, code, signal) { if (this.emitted[ev]) { return false; } this.emitted[ev] = true; let ret = false; for (const fn of this.listeners[ev]) { ret = fn(code, signal) === true || ret; } if (ev === "exit") { ret = this.emit("afterExit", code, signal) || ret; } return ret; } }; var SignalExitBase = class { }; var signalExitWrap = (handler) => { return { onExit(cb, opts) { return handler.onExit(cb, opts); }, load() { return handler.load(); }, unload() { return handler.unload(); } }; }; var SignalExitFallback = class extends SignalExitBase { onExit() { return () => { }; } load() { } unload() { } }; var SignalExit = class extends SignalExitBase { // "SIGHUP" throws an `ENOSYS` error on Windows, // so use a supported signal instead /* c8 ignore start */ #hupSig = process4.platform === "win32" ? "SIGINT" : "SIGHUP"; /* c8 ignore stop */ #emitter = new Emitter(); #process; #originalProcessEmit; #originalProcessReallyExit; #sigListeners = {}; #loaded = false; constructor(process7) { super(); this.#process = process7; this.#sigListeners = {}; for (const sig of signals) { this.#sigListeners[sig] = () => { const listeners = this.#process.listeners(sig); let { count } = this.#emitter; const p = process7; if (typeof p.__signal_exit_emitter__ === "object" && typeof p.__signal_exit_emitter__.count === "number") { count += p.__signal_exit_emitter__.count; } if (listeners.length === count) { this.unload(); const ret = this.#emitter.emit("exit", null, sig); const s = sig === "SIGHUP" ? this.#hupSig : sig; if (!ret) process7.kill(process7.pid, s); } }; } this.#originalProcessReallyExit = process7.reallyExit; this.#originalProcessEmit = process7.emit; } onExit(cb, opts) { if (!processOk(this.#process)) { return () => { }; } if (this.#loaded === false) { this.load(); } const ev = opts?.alwaysLast ? "afterExit" : "exit"; this.#emitter.on(ev, cb); return () => { this.#emitter.removeListener(ev, cb); if (this.#emitter.listeners["exit"].length === 0 && this.#emitter.listeners["afterExit"].length === 0) { this.unload(); } }; } load() { if (this.#loaded) { return; } this.#loaded = true; this.#emitter.count += 1; for (const sig of signals) { try { const fn = this.#sigListeners[sig]; if (fn) this.#process.on(sig, fn); } catch (_) { } } this.#process.emit = (ev, ...a) => { return this.#processEmit(ev, ...a); }; this.#process.reallyExit = (code) => { return this.#processReallyExit(code); }; } unload() { if (!this.#loaded) { return; } this.#loaded = false; signals.forEach((sig) => { const listener = this.#sigListeners[sig]; if (!listener) { throw new Error("Listener not defined for signal: " + sig); } try { this.#process.removeListener(sig, listener); } catch (_) { } }); this.#process.emit = this.#originalProcessEmit; this.#process.reallyExit = this.#originalProcessReallyExit; this.#emitter.count -= 1; } #processReallyExit(code) { if (!processOk(this.#process)) { return 0; } this.#process.exitCode = code || 0; this.#emitter.emit("exit", this.#process.exitCode, null); return this.#originalProcessReallyExit.call(this.#process, this.#process.exitCode); } #processEmit(ev, ...args) { const og = this.#originalProcessEmit; if (ev === "exit" && processOk(this.#process)) { if (typeof args[0] === "number") { this.#process.exitCode = args[0]; } const ret = og.call(this.#process, ev, ...args); this.#emitter.emit("exit", this.#process.exitCode, null); return ret; } else { return og.call(this.#process, ev, ...args); } } }; var process4 = globalThis.process; var { /** * Called when the process is exiting, whether via signal, explicit * exit, or running out of stuff to do. * * If the global process object is not suitable for instrumentation, * then this will be a no-op. * * Returns a function that may be used to unload signal-exit. */ onExit, /** * Load the listeners. Likely you never need to call this, unless * doing a rather deep integration with signal-exit functionality. * Mostly exposed for the benefit of testing. * * @internal */ load, /** * Unload the listeners. Likely you never need to call this, unless * doing a rather deep integration with signal-exit functionality. * Mostly exposed for the benefit of testing. * * @internal */ unload } = signalExitWrap(processOk(process4) ? new SignalExit(process4) : new SignalExitFallback()); var DEFAULT_FORCE_KILL_TIMEOUT = 1e3 * 5; var spawnedKill = (kill, signal = "SIGTERM", options = {}) => { const killResult = kill(signal); setKillTimeout(kill, signal, options, killResult); return killResult; }; var setKillTimeout = (kill, signal, options, killResult) => { if (!shouldForceKill(signal, options, killResult)) { return; } const timeout = getForceKillAfterTimeout(options); const t = setTimeout(() => { kill("SIGKILL"); }, timeout); if (t.unref) { t.unref(); } }; var shouldForceKill = (signal, { forceKillAfterTimeout }, killResult) => isSigterm(signal) && forceKillAfterTimeout !== false && killResult; var isSigterm = (signal) => signal === import_node_os3.default.constants.signals.SIGTERM || typeof signal === "string" && signal.toUpperCase() === "SIGTERM"; var getForceKillAfterTimeout = ({ forceKillAfterTimeout = true }) => { if (forceKillAfterTimeout === true) { return DEFAULT_FORCE_KILL_TIMEOUT; } if (!Number.isFinite(forceKillAfterTimeout) || forceKillAfterTimeout < 0) { throw new TypeError(`Expected the \`forceKillAfterTimeout\` option to be a non-negative integer, got \`${forceKillAfterTimeout}\` (${typeof forceKillAfterTimeout})`); } return forceKillAfterTimeout; }; var spawnedCancel = (spawned, context) => { const killResult = spawned.kill(); if (killResult) { context.isCanceled = true; } }; var timeoutKill = (spawned, signal, reject) => { spawned.kill(signal); reject(Object.assign(new Error("Timed out"), { timedOut: true, signal })); }; var setupTimeout = (spawned, { timeout, killSignal = "SIGTERM" }, spawnedPromise) => { if (timeout === 0 || timeout === void 0) { return spawnedPromise; } let timeoutId; const timeoutPromise = new Promise((resolve, reject) => { timeoutId = setTimeout(() => { timeoutKill(spawned, killSignal, reject); }, timeout); }); const safeSpawnedPromise = spawnedPromise.finally(() => { clearTimeout(timeoutId); }); return Promise.race([timeoutPromise, safeSpawnedPromise]); }; var validateTimeout = ({ timeout }) => { if (timeout !== void 0 && (!Number.isFinite(timeout) || timeout < 0)) { throw new TypeError(`Expected the \`timeout\` option to be a non-negative integer, got \`${timeout}\` (${typeof timeout})`); } }; var setExitHandler = async (spawned, { cleanup, detached }, timedPromise) => { if (!cleanup || detached) { return timedPromise; } const removeExitHandler = onExit(() => { spawned.kill(); }); return timedPromise.finally(() => { removeExitHandler(); }); }; function isStream(stream) { return stream !== null && typeof stream === "object" && typeof stream.pipe === "function"; } function isWritableStream(stream) { return isStream(stream) && stream.writable !== false && typeof stream._write === "function" && typeof stream._writableState === "object"; } var isExecaChildProcess = (target) => target instanceof import_node_child_process2.ChildProcess && typeof target.then === "function"; var pipeToTarget = (spawned, streamName, target) => { if (typeof target === "string") { spawned[streamName].pipe((0, import_node_fs2.createWriteStream)(target)); return spawned; } if (isWritableStream(target)) { spawned[streamName].pipe(target); return spawned; } if (!isExecaChildProcess(target)) { throw new TypeError("The second argument must be a string, a stream or an Execa child process."); } if (!isWritableStream(target.stdin)) { throw new TypeError("The target child process's stdin must be available."); } spawned[streamName].pipe(target.stdin); return target; }; var addPipeMethods = (spawned) => { if (spawned.stdout !== null) { spawned.pipeStdout = pipeToTarget.bind(void 0, spawned, "stdout"); } if (spawned.stderr !== null) { spawned.pipeStderr = pipeToTarget.bind(void 0, spawned, "stderr"); } if (spawned.all !== void 0) { spawned.pipeAll = pipeToTarget.bind(void 0, spawned, "all"); } }; var getStreamContents = async (stream, { init, convertChunk, getSize, truncateChunk, addChunk, getFinalChunk, finalize }, { maxBuffer = Number.POSITIVE_INFINITY } = {}) => { if (!isAsyncIterable(stream)) { throw new Error("The first argument must be a Readable, a ReadableStream, or an async iterable."); } const state = init(); state.length = 0; try { for await (const chunk of stream) { const chunkType = getChunkType(chunk); const convertedChunk = convertChunk[chunkType](chunk, state); appendChunk({ convertedChunk, state, getSize, truncateChunk, addChunk, maxBuffer }); } appendFinalChunk({ state, convertChunk, getSize, truncateChunk, addChunk, getFinalChunk, maxBuffer }); return finalize(state); } catch (error) { error.bufferedData = finalize(state); throw error; } }; var appendFinalChunk = ({ state, getSize, truncateChunk, addChunk, getFinalChunk, maxBuffer }) => { const convertedChunk = getFinalChunk(state); if (convertedChunk !== void 0) { appendChunk({ convertedChunk, state, getSize, truncateChunk, addChunk, maxBuffer }); } }; var appendChunk = ({ convertedChunk, state, getSize, truncateChunk, addChunk, maxBuffer }) => { const chunkSize = getSize(convertedChunk); const newLength = state.length + chunkSize; if (newLength <= maxBuffer) { addNewChunk(convertedChunk, state, addChunk, newLength); return; } const truncatedChunk = truncateChunk(convertedChunk, maxBuffer - state.length); if (truncatedChunk !== void 0) { addNewChunk(truncatedChunk, state, addChunk, maxBuffer); } throw new MaxBufferError(); }; var addNewChunk = (convertedChunk, state, addChunk, newLength) => { state.contents = addChunk(convertedChunk, state, newLength); state.length = newLength; }; var isAsyncIterable = (stream) => typeof stream === "object" && stream !== null && typeof stream[Symbol.asyncIterator] === "function"; var getChunkType = (chunk) => { const typeOfChunk = typeof chunk; if (typeOfChunk === "string") { return "string"; } if (typeOfChunk !== "object" || chunk === null) { return "others"; } if (globalThis.Buffer?.isBuffer(chunk)) { return "buffer"; } const prototypeName = objectToString.call(chunk); if (prototypeName === "[object ArrayBuffer]") { return "arrayBuffer"; } if (prototypeName === "[object DataView]") { return "dataView"; } if (Number.isInteger(chunk.byteLength) && Number.isInteger(chunk.byteOffset) && objectToString.call(chunk.buffer) === "[object ArrayBuffer]") { return "typedArray"; } return "others"; }; var { toString: objectToString } = Object.prototype; var MaxBufferError = class extends Error { name = "MaxBufferError"; constructor() { super("maxBuffer exceeded"); } }; var identity = (value) => value; var noop = () => void 0; var getContentsProp = ({ contents }) => contents; var throwObjectStream = (chunk) => { throw new Error(`Streams in object mode are not supported: ${String(chunk)}`); }; var getLengthProp = (convertedChunk) => convertedChunk.length; async function getStreamAsArrayBuffer(stream, options) { return getStreamContents(stream, arrayBufferMethods, options); } var initArrayBuffer = () => ({ contents: new ArrayBuffer(0) }); var useTextEncoder = (chunk) => textEncoder.encode(chunk); var textEncoder = new TextEncoder(); var useUint8Array = (chunk) => new Uint8Array(chunk); var useUint8ArrayWithOffset = (chunk) => new Uint8Array(chunk.buffer, chunk.byteOffset, chunk.byteLength); var truncateArrayBufferChunk = (convertedChunk, chunkSize) => convertedChunk.slice(0, chunkSize); var addArrayBufferChunk = (convertedChunk, { contents, length: previousLength }, length) => { const newContents = hasArrayBufferResize() ? resizeArrayBuffer(contents, length) : resizeArrayBufferSlow(contents, length); new Uint8Array(newContents).set(convertedChunk, previousLength); return newContents; }; var resizeArrayBufferSlow = (contents, length) => { if (length <= contents.byteLength) { return contents; } const arrayBuffer = new ArrayBuffer(getNewContentsLength(length)); new Uint8Array(arrayBuffer).set(new Uint8Array(contents), 0); return arrayBuffer; }; var resizeArrayBuffer = (contents, length) => { if (length <= contents.maxByteLength) { contents.resize(length); return contents; } const arrayBuffer = new ArrayBuffer(length, { maxByteLength: getNewContentsLength(length) }); new Uint8Array(arrayBuffer).set(new Uint8Array(contents), 0); return arrayBuffer; }; var getNewContentsLength = (length) => SCALE_FACTOR ** Math.ceil(Math.log(length) / Math.log(SCALE_FACTOR)); var SCALE_FACTOR = 2; var finalizeArrayBuffer = ({ contents, length }) => hasArrayBufferResize() ? contents : contents.slice(0, length); var hasArrayBufferResize = () => "resize" in ArrayBuffer.prototype; var arrayBufferMethods = { init: initArrayBuffer, convertChunk: { string: useTextEncoder, buffer: useUint8Array, arrayBuffer: useUint8Array, dataView: useUint8ArrayWithOffset, typedArray: useUint8ArrayWithOffset, others: throwObjectStream }, getSize: getLengthProp, truncateChunk: truncateArrayBufferChunk, addChunk: addArrayBufferChunk, getFinalChunk: noop, finalize: finalizeArrayBuffer }; async function getStreamAsBuffer(stream, options) { if (!("Buffer" in globalThis)) { throw new Error("getStreamAsBuffer() is only supported in Node.js"); } try { return arrayBufferToNodeBuffer(await getStreamAsArrayBuffer(stream, options)); } catch (error) { if (error.bufferedData !== void 0) { error.bufferedData = arrayBufferToNodeBuffer(error.bufferedData); } throw error; } } var arrayBufferToNodeBuffer = (arrayBuffer) => globalThis.Buffer.from(arrayBuffer); async function getStreamAsString(stream, options) { return getStreamContents(stream, stringMethods, options); } var initString = () => ({ contents: "", textDecoder: new TextDecoder() }); var useTextDecoder = (chunk, { textDecoder }) => textDecoder.decode(chunk, { stream: true }); var addStringChunk = (convertedChunk, { contents }) => contents + convertedChunk; var truncateStringChunk = (convertedChunk, chunkSize) => convertedChunk.slice(0, chunkSize); var getFinalStringChunk = ({ textDecoder }) => { const finalChunk = textDecoder.decode(); return finalChunk === "" ? void 0 : finalChunk; }; var stringMethods = { init: initString, convertChunk: { string: identity, buffer: useTextDecoder, arrayBuffer: useTextDecoder, dataView: useTextDecoder, typedArray: useTextDecoder, others: throwObjectStream }, getSize: getLengthProp, truncateChunk: truncateStringChunk, addChunk: addStringChunk, getFinalChunk: getFinalStringChunk, finalize: getContentsProp }; var import_merge_stream = (0, import_chunk_QGM4M3NI.__toESM)(require_merge_stream(), 1); var validateInputOptions = (input) => { if (input !== void 0) { throw new TypeError("The `input` and `inputFile` options cannot be both set."); } }; var getInputSync = ({ input, inputFile }) => { if (typeof inputFile !== "string") { return input; } validateInputOptions(input); return (0, import_node_fs3.readFileSync)(inputFile); }; var handleInputSync = (options) => { const input = getInputSync(options); if (isStream(input)) { throw new TypeError("The `input` option cannot be a stream in sync mode"); } return input; }; var getInput = ({ input, inputFile }) => { if (typeof inputFile !== "string") { return input; } validateInputOptions(input); return (0, import_node_fs3.createReadStream)(inputFile); }; var handleInput = (spawned, options) => { const input = getInput(options); if (input === void 0) { return; } if (isStream(input)) { input.pipe(spawned.stdin); } else { spawned.stdin.end(input); } }; var makeAllStream = (spawned, { all }) => { if (!all || !spawned.stdout && !spawned.stderr) { return; } const mixed = (0, import_merge_stream.default)(); if (spawned.stdout) { mixed.add(spawned.stdout); } if (spawned.stderr) { mixed.add(spawned.stderr); } return mixed; }; var getBufferedData = async (stream, streamPromise) => { if (!stream || streamPromise === void 0) { return; } await (0, import_promises.setTimeout)(0); stream.destroy(); try { return await streamPromise; } catch (error) { return error.bufferedData; } }; var getStreamPromise = (stream, { encoding, buffer, maxBuffer }) => { if (!stream || !buffer) { return; } if (encoding === "utf8" || encoding === "utf-8") { return getStreamAsString(stream, { maxBuffer }); } if (encoding === null || encoding === "buffer") { return getStreamAsBuffer(stream, { maxBuffer }); } return applyEncoding(stream, maxBuffer, encoding); }; var applyEncoding = async (stream, maxBuffer, encoding) => { const buffer = await getStreamAsBuffer(stream, { maxBuffer }); return buffer.toString(encoding); }; var getSpawnedResult = async ({ stdout, stderr, all }, { encoding, buffer, maxBuffer }, processDone) => { const stdoutPromise = getStreamPromise(stdout, { encoding, buffer, maxBuffer }); const stderrPromise = getStreamPromise(stderr, { encoding, buffer, maxBuffer }); const allPromise = getStreamPromise(all, { encoding, buffer, maxBuffer: maxBuffer * 2 }); try { return await Promise.all([processDone, stdoutPromise, stderrPromise, allPromise]); } catch (error) { return Promise.all([ { error, signal: error.signal, timedOut: error.timedOut }, getBufferedData(stdout, stdoutPromise), getBufferedData(stderr, stderrPromise), getBufferedData(all, allPromise) ]); } }; var nativePromisePrototype = (async () => { })().constructor.prototype; var descriptors = ["then", "catch", "finally"].map((property) => [ property, Reflect.getOwnPropertyDescriptor(nativePromisePrototype, property) ]); var mergePromise = (spawned, promise) => { for (const [property, descriptor] of descriptors) { const value = typeof promise === "function" ? (...args) => Reflect.apply(descriptor.value, promise(), args) : descriptor.value.bind(promise); Reflect.defineProperty(spawned, property, { ...descriptor, value }); } }; var getSpawnedPromise = (spawned) => new Promise((resolve, reject) => { spawned.on("exit", (exitCode, signal) => { resolve({ exitCode, signal }); }); spawned.on("error", (error) => { reject(error); }); if (spawned.stdin) { spawned.stdin.on("error", (error) => { reject(error); }); } }); var normalizeArgs = (file, args = []) => { if (!Array.isArray(args)) { return [file]; } return [file, ...args]; }; var NO_ESCAPE_REGEXP = /^[\w.-]+$/; var escapeArg = (arg) => { if (typeof arg !== "string" || NO_ESCAPE_REGEXP.test(arg)) { return arg; } return `"${arg.replaceAll('"', '\\"')}"`; }; var joinCommand = (file, args) => normalizeArgs(file, args).join(" "); var getEscapedCommand = (file, args) => normalizeArgs(file, args).map((arg) => escapeArg(arg)).join(" "); var SPACES_REGEXP = / +/g; var parseExpression = (expression) => { const typeOfExpression = typeof expression; if (typeOfExpression === "string") { return expression; } if (typeOfExpression === "number") { return String(expression); } if (typeOfExpression === "object" && expression !== null && !(expression instanceof import_node_child_process3.ChildProcess) && "stdout" in expression) { const typeOfStdout = typeof expression.stdout; if (typeOfStdout === "string") { return expression.stdout; } if (import_node_buffer2.Buffer.isBuffer(expression.stdout)) { return expression.stdout.toString(); } throw new TypeError(`Unexpected "${typeOfStdout}" stdout in template expression`); } throw new TypeError(`Unexpected "${typeOfExpression}" in template expression`); }; var concatTokens = (tokens, nextTokens, isNew) => isNew || tokens.length === 0 || nextTokens.length === 0 ? [...tokens, ...nextTokens] : [ ...tokens.slice(0, -1), `${tokens.at(-1)}${nextTokens[0]}`, ...nextTokens.slice(1) ]; var parseTemplate = ({ templates, expressions, tokens, index, template }) => { const templateString = template ?? templates.raw[index]; const templateTokens = templateString.split(SPACES_REGEXP).filter(Boolean); const newTokens = concatTokens( tokens, templateTokens, templateString.startsWith(" ") ); if (index === expressions.length) { return newTokens; } const expression = expressions[index]; const expressionTokens = Array.isArray(expression) ? expression.map((expression2) => parseExpression(expression2)) : [parseExpression(expression)]; return concatTokens( newTokens, expressionTokens, templateString.endsWith(" ") ); }; var parseTemplates = (templates, expressions) => { let tokens = []; for (const [index, template] of templates.entries()) { tokens = parseTemplate({ templates, expressions, tokens, index, template }); } return tokens; }; var verboseDefault = (0, import_node_util2.debuglog)("execa").enabled; var padField = (field, padding) => String(field).padStart(padding, "0"); var getTimestamp = () => { const date = /* @__PURE__ */ new Date(); return `${padField(date.getHours(), 2)}:${padField(date.getMinutes(), 2)}:${padField(date.getSeconds(), 2)}.${padField(date.getMilliseconds(), 3)}`; }; var logCommand = (escapedCommand, { verbose }) => { if (!verbose) { return; } import_node_process4.default.stderr.write(`[${getTimestamp()}] ${escapedCommand} `); }; var DEFAULT_MAX_BUFFER = 1e3 * 1e3 * 100; var getEnv = ({ env: envOption, extendEnv, preferLocal, localDir, execPath }) => { const env = extendEnv ? { ...import_node_process.default.env, ...envOption } : envOption; if (preferLocal) { return npmRunPathEnv({ env, cwd: localDir, execPath }); } return env; }; var handleArguments = (file, args, options = {}) => { const parsed = import_cross_spawn.default._parse(file, args, options); file = parsed.command; args = parsed.args; options = parsed.options; options = { maxBuffer: DEFAULT_MAX_BUFFER, buffer: true, stripFinalNewline: true, extendEnv: true, preferLocal: false, localDir: options.cwd || import_node_process.default.cwd(), execPath: import_node_process.default.execPath, encoding: "utf8", reject: true, cleanup: true, all: false, windowsHide: true, verbose: verboseDefault, ...options }; options.env = getEnv(options); options.stdio = normalizeStdio(options); if (import_node_process.default.platform === "win32" && import_node_path2.default.basename(file, ".exe") === "cmd") { args.unshift("/q"); } return { file, args, options, parsed }; }; var handleOutput = (options, value, error) => { if (typeof value !== "string" && !import_node_buffer.Buffer.isBuffer(value)) { return error === void 0 ? void 0 : ""; } if (options.stripFinalNewline) { return stripFinalNewline(value); } return value; }; function execa(file, args, options) { const parsed = handleArguments(file, args, options); const command = joinCommand(file, args); const escapedCommand = getEscapedCommand(file, args); logCommand(escapedCommand, parsed.options); validateTimeout(parsed.options); let spawned; try { spawned = import_node_child_process.default.spawn(parsed.file, parsed.args, parsed.options); } catch (error) { const dummySpawned = new import_node_child_process.default.ChildProcess(); const errorPromise = Promise.reject(makeError({ error, stdout: "", stderr: "", all: "", command, escapedCommand, parsed, timedOut: false, isCanceled: false, killed: false })); mergePromise(dummySpawned, errorPromise); return dummySpawned; } const spawnedPromise = getSpawnedPromise(spawned); const timedPromise = setupTimeout(spawned, parsed.options, spawnedPromise); const processDone = setExitHandler(spawned, parsed.options, timedPromise); const context = { isCanceled: false }; spawned.kill = spawnedKill.bind(null, spawned.kill.bind(spawned)); spawned.cancel = spawnedCancel.bind(null, spawned, context); const handlePromise = async () => { const [{ error, exitCode, signal, timedOut }, stdoutResult, stderrResult, allResult] = await getSpawnedResult(spawned, parsed.options, processDone); const stdout = handleOutput(parsed.options, stdoutResult); const stderr = handleOutput(parsed.options, stderrResult); const all = handleOutput(parsed.options, allResult); if (error || exitCode !== 0 || signal !== null) { const returnedError = makeError({ error, exitCode, signal, stdout, stderr, all, command, escapedCommand, parsed, timedOut, isCanceled: context.isCanceled || (parsed.options.signal ? parsed.options.signal.aborted : false), killed: spawned.killed }); if (!parsed.options.reject) { return returnedError; } throw returnedError; } return { command, escapedCommand, exitCode: 0, stdout, stderr, all, failed: false, timedOut: false, isCanceled: false, killed: false }; }; const handlePromiseOnce = onetime_default(handlePromise); handleInput(spawned, parsed.options); spawned.all = makeAllStream(spawned, parsed.options); addPipeMethods(spawned); mergePromise(spawned, handlePromiseOnce); return spawned; } function execaSync(file, args, options) { const parsed = handleArguments(file, args, options); const command = joinCommand(file, args); const escapedCommand = getEscapedCommand(file, args); logCommand(escapedCommand, parsed.options); const input = handleInputSync(parsed.options); let result; try { result = import_node_child_process.default.spawnSync(parsed.file, parsed.args, { ...parsed.options, input }); } catch (error) { throw makeError({ error, stdout: "", stderr: "", all: "", command, escapedCommand, parsed, timedOut: false, isCanceled: false, killed: false }); } const stdout = handleOutput(parsed.options, result.stdout, result.error); const stderr = handleOutput(parsed.options, result.stderr, result.error); if (result.error || result.status !== 0 || result.signal !== null) { const error = makeError({ stdout, stderr, error: result.error, signal: result.signal, exitCode: result.status, command, escapedCommand, parsed, timedOut: result.error && result.error.code === "ETIMEDOUT", isCanceled: false, killed: result.signal !== null }); if (!parsed.options.reject) { return error; } throw error; } return { command, escapedCommand, exitCode: 0, stdout, stderr, failed: false, timedOut: false, isCanceled: false, killed: false }; } var normalizeScriptStdin = ({ input, inputFile, stdio }) => input === void 0 && inputFile === void 0 && stdio === void 0 ? { stdin: "inherit" } : {}; var normalizeScriptOptions = (options = {}) => ({ preferLocal: true, ...normalizeScriptStdin(options), ...options }); function create$(options) { function $2(templatesOrOptions, ...expressions) { if (!Array.isArray(templatesOrOptions)) { return create$({ ...options, ...templatesOrOptions }); } const [file, ...args] = parseTemplates(templatesOrOptions, expressions); return execa(file, args, normalizeScriptOptions(options)); } $2.sync = (templates, ...expressions) => { if (!Array.isArray(templates)) { throw new TypeError("Please use $(options).sync`command` instead of $.sync(options)`command`."); } const [file, ...args] = parseTemplates(templates, expressions); return execaSync(file, args, normalizeScriptOptions(options)); }; return $2; } var $ = create$(); var import_fs_extra = (0, import_chunk_QGM4M3NI.__toESM)((0, import_chunk_LONQL55G.require_lib)()); async function pMap(iterable, mapper, { concurrency = Number.POSITIVE_INFINITY, stopOnError = true, signal } = {}) { return new Promise((resolve_, reject_) => { if (iterable[Symbol.iterator] === void 0 && iterable[Symbol.asyncIterator] === void 0) { throw new TypeError(`Expected \`input\` to be either an \`Iterable\` or \`AsyncIterable\`, got (${typeof iterable})`); } if (typeof mapper !== "function") { throw new TypeError("Mapper function is required"); } if (!(Number.isSafeInteger(concurrency) && concurrency >= 1 || concurrency === Number.POSITIVE_INFINITY)) { throw new TypeError(`Expected \`concurrency\` to be an integer from 1 and up or \`Infinity\`, got \`${concurrency}\` (${typeof concurrency})`); } const result = []; const errors = []; const skippedIndexesMap = /* @__PURE__ */ new Map(); let isRejected = false; let isResolved = false; let isIterableDone = false; let resolvingCount = 0; let currentIndex = 0; const iterator = iterable[Symbol.iterator] === void 0 ? iterable[Symbol.asyncIterator]() : iterable[Symbol.iterator](); const signalListener = () => { reject(signal.reason); }; const cleanup = () => { signal?.removeEventListener("abort", signalListener); }; const resolve = (value) => { resolve_(value); cleanup(); }; const reject = (reason) => { isRejected = true; isResolved = true; reject_(reason); cleanup(); }; if (signal) { if (signal.aborted) { reject(signal.reason); } signal.addEventListener("abort", signalListener, { once: true }); } const next = async () => { if (isResolved) { return; } const nextItem = await iterator.next(); const index = currentIndex; currentIndex++; if (nextItem.done) { isIterableDone = true; if (resolvingCount === 0 && !isResolved) { if (!stopOnError && errors.length > 0) { reject(new AggregateError(errors)); return; } isResolved = true; if (skippedIndexesMap.size === 0) { resolve(result); return; } const pureResult = []; for (const [index2, value] of result.entries()) { if (skippedIndexesMap.get(index2) === pMapSkip) { continue; } pureResult.push(value); } resolve(pureResult); } return; } resolvingCount++; (async () => { try { const element = await nextItem.value; if (isResolved) { return; } const value = await mapper(element, index); if (value === pMapSkip) { skippedIndexesMap.set(index, value); } result[index] = value; resolvingCount--; await next(); } catch (error) { if (stopOnError) { reject(error); } else { errors.push(error); resolvingCount--; try { await next(); } catch (error2) { reject(error2); } } } })(); }; (async () => { for (let index = 0; index < concurrency; index++) { try { await next(); } catch (error) { reject(error); break; } if (isIterableDone || isRejected) { break; } } })(); }); } var pMapSkip = Symbol("skip"); async function pFilter(iterable, filterer, options) { const values = await pMap( iterable, (element, index) => Promise.all([filterer(element, index), element]), options ); return values.filter((value) => Boolean(value[0])).map((value) => value[1]); } var import_temp_dir = (0, import_chunk_QGM4M3NI.__toESM)((0, import_chunk_CY52DY2B.require_temp_dir)()); var { enginesOverride } = require_package(); var debug = (0, import_debug.default)("prisma:fetch-engine:download"); var exists = (0, import_node_util.promisify)(import_node_fs.default.exists); var channel = "master"; var vercelPkgPathRegex = /^((\w:[\\\/])|\/)snapshot[\/\\]/; async function download(options) { if (!options.binaries || Object.values(options.binaries).length === 0) { return {}; } if (enginesOverride?.["branch"] || enginesOverride?.["folder"]) { options.version = "_local_"; options.skipCacheIntegrityCheck = true; } const { binaryTarget, ...os2 } = await (0, import_get_platform.getPlatformInfo)(); if (os2.targetDistro && ["nixos"].includes(os2.targetDistro) && !(0, import_chunk_QFA3XBMW.allEngineEnvVarsSet)(Object.keys(options.binaries))) { console.error( `${(0, import_chunk_QFA3XBMW.yellow)("Warning")} Precompiled engine files are not available for ${os2.targetDistro}, please provide the paths via environment variables, see https://pris.ly/d/custom-engines` ); } else if (["freebsd11", "freebsd12", "freebsd13", "freebsd14", "freebsd15", "openbsd", "netbsd"].includes(binaryTarget)) { console.error( `${(0, import_chunk_QFA3XBMW.yellow)( "Warning" )} Precompiled engine files are not available for ${binaryTarget}. Read more about building your own engines at https://pris.ly/d/build-engines` ); } else if ("libquery-engine" in options.binaries) { (0, import_get_platform.assertNodeAPISupported)(); } const opts = { ...options, binaryTargets: options.binaryTargets ?? [binaryTarget], version: options.version ?? "latest", binaries: options.binaries }; const binaryJobs = Object.entries(opts.binaries).flatMap( ([binaryName, targetFolder]) => opts.binaryTargets.map((binaryTarget2) => { const fileName = getBinaryName(binaryName, binaryTarget2); const targetFilePath = import_node_path.default.join(targetFolder, fileName); return { binaryName, targetFolder, binaryTarget: binaryTarget2, fileName, targetFilePath, envVarPath: (0, import_chunk_QFA3XBMW.getBinaryEnvVarPath)(binaryName)?.path, skipCacheIntegrityCheck: !!opts.skipCacheIntegrityCheck }; }) ); if (process.env.BINARY_DOWNLOAD_VERSION) { debug(`process.env.BINARY_DOWNLOAD_VERSION is set to "${process.env.BINARY_DOWNLOAD_VERSION}"`); opts.version = process.env.BINARY_DOWNLOAD_VERSION; } if (opts.printVersion) { console.log(`version: ${opts.version}`); } const binariesToDownload = await pFilter(binaryJobs, async (job) => { const needsToBeDownloaded = await binaryNeedsToBeDownloaded(job, binaryTarget, opts.version); const isSupported = import_get_platform.binaryTargets.includes(job.binaryTarget); const shouldDownload = isSupported && !job.envVarPath && // this is for custom binaries needsToBeDownloaded; if (needsToBeDownloaded && !isSupported) { throw new Error(`Unknown binaryTarget ${job.binaryTarget} and no custom engine files were provided`); } return shouldDownload; }); if (binariesToDownload.length > 0) { const cleanupPromise = (0, import_chunk_3VVCXIQ5.cleanupCache)(); let finishBar; let setProgress; if (opts.showProgress) { const collectiveBar = getCollectiveBar(opts); finishBar = collectiveBar.finishBar; setProgress = collectiveBar.setProgress; } const promises = binariesToDownload.map((job) => { const downloadUrl = (0, import_chunk_LONQL55G.getDownloadUrl)({ channel: "all_commits", version: opts.version, binaryTarget: job.binaryTarget, binaryName: job.binaryName }); debug(`${downloadUrl} will be downloaded to ${job.targetFilePath}`); return downloadBinary({ ...job, downloadUrl, version: opts.version, failSilent: opts.failSilent, progressCb: setProgress ? setProgress(job.targetFilePath) : void 0 }); }); await Promise.all(promises); await cleanupPromise; if (finishBar) { finishBar(); } } const binaryPaths = binaryJobsToBinaryPaths(binaryJobs); if (__dirname.match(vercelPkgPathRegex)) { for (const engineType in binaryPaths) { const binaryTargets2 = binaryPaths[engineType]; for (const binaryTarget2 in binaryTargets2) { const binaryPath = binaryTargets2[binaryTarget2]; binaryTargets2[binaryTarget2] = await maybeCopyToTmp(binaryPath); } } } return binaryPaths; } function getCollectiveBar(options) { const hasNodeAPI = "libquery-engine" in options.binaries; const bar = (0, import_chunk_MWVY55RY.getBar)( `Downloading Prisma engines${hasNodeAPI ? " for Node-API" : ""} for ${options.binaryTargets?.map((p) => (0, import_chunk_QFA3XBMW.bold)(p)).join(" and ")}` ); const progressMap = {}; const numDownloads = Object.values(options.binaries).length * Object.values(options?.binaryTargets ?? []).length; const setProgress = (sourcePath) => (progress) => { progressMap[sourcePath] = progress; const progressValues = Object.values(progressMap); const totalProgress = progressValues.reduce((acc, curr) => { return acc + curr; }, 0) / numDownloads; if (options.progressCb) { options.progressCb(totalProgress); } if (bar) { bar.update(totalProgress); } }; return { setProgress, finishBar: () => { bar.update(1); bar.terminate(); } }; } function binaryJobsToBinaryPaths(jobs) { return jobs.reduce((acc, job) => { if (!acc[job.binaryName]) { acc[job.binaryName] = {}; } acc[job.binaryName][job.binaryTarget] = job.envVarPath || job.targetFilePath; return acc; }, {}); } async function binaryNeedsToBeDownloaded(job, nativePlatform, version) { if (job.envVarPath && import_node_fs.default.existsSync(job.envVarPath)) { return false; } const targetExists = await exists(job.targetFilePath); const cachedFile = await getCachedBinaryPath({ ...job, version }); if (cachedFile) { if (job.skipCacheIntegrityCheck === true) { await (0, import_chunk_LONQL55G.overwriteFile)(cachedFile, job.targetFilePath); return false; } const sha256FilePath = cachedFile + ".sha256"; if (await exists(sha256FilePath)) { const sha256File = await import_node_fs.default.promises.readFile(sha256FilePath, "utf-8"); const sha256Cache = await (0, import_chunk_FKGWOTGU.getHash)(cachedFile); if (sha256File === sha256Cache) { if (!targetExists) { debug(`copying ${cachedFile} to ${job.targetFilePath}`); await import_node_fs.default.promises.utimes(cachedFile, /* @__PURE__ */ new Date(), /* @__PURE__ */ new Date()); await (0, import_chunk_LONQL55G.overwriteFile)(cachedFile, job.targetFilePath); } const targetSha256 = await (0, import_chunk_FKGWOTGU.getHash)(job.targetFilePath); if (sha256File !== targetSha256) { debug(`overwriting ${job.targetFilePath} with ${cachedFile} as hashes do not match`); await (0, import_chunk_LONQL55G.overwriteFile)(cachedFile, job.targetFilePath); } return false; } else { return true; } } else if (process.env.PRISMA_ENGINES_CHECKSUM_IGNORE_MISSING) { debug( `the checksum file ${sha256FilePath} is missing but this was ignored because the PRISMA_ENGINES_CHECKSUM_IGNORE_MISSING environment variable is set` ); if (targetExists) { return false; } if (cachedFile) { debug(`copying ${cachedFile} to ${job.targetFilePath}`); await (0, import_chunk_LONQL55G.overwriteFile)(cachedFile, job.targetFilePath); return false; } return true; } else { return true; } } if (!targetExists) { debug(`file ${job.targetFilePath} does not exist and must be downloaded`); return true; } if (job.binaryTarget === nativePlatform) { const currentVersion = await getVersion(job.targetFilePath, job.binaryName); if (currentVersion?.includes(version) !== true) { debug(`file ${job.targetFilePath} exists but its version is ${currentVersion} and we expect ${version}`); return true; } } return false; } async function getVersion(enginePath, binaryName) { try { if (binaryName === "libquery-engine") { (0, import_get_platform.assertNodeAPISupported)(); const commitHash = (0, import_chunk_QGM4M3NI.__require)(enginePath).version().commit; return `${"libquery-engine"} ${commitHash}`; } else { const result = await execa(enginePath, ["--version"]); return result.stdout; } } catch { } return void 0; } function getBinaryName(binaryName, binaryTarget) { if (binaryName === "libquery-engine") { return `${(0, import_get_platform.getNodeAPIName)(binaryTarget, "fs")}`; } const extension = binaryTarget === "windows" ? ".exe" : ""; return `${binaryName}-${binaryTarget}${extension}`; } async function getCachedBinaryPath({ version, binaryTarget, binaryName }) { const cacheDir = await (0, import_chunk_LONQL55G.getCacheDir)(channel, version, binaryTarget); if (!cacheDir) { return null; } const cachedTargetPath = import_node_path.default.join(cacheDir, binaryName); if (!import_node_fs.default.existsSync(cachedTargetPath)) { return null; } if (version !== "latest") { return cachedTargetPath; } if (await exists(cachedTargetPath)) { return cachedTargetPath; } return null; } async function downloadBinary(options) { const { version, progressCb, targetFilePath, downloadUrl } = options; const targetDir = import_node_path.default.dirname(targetFilePath); try { import_node_fs.default.accessSync(targetDir, import_node_fs.default.constants.W_OK); await (0, import_fs_extra.ensureDir)(targetDir); } catch (e) { if (options.failSilent || e.code !== "EACCES") { return; } else { throw new Error(`Can't write to ${targetDir} please make sure you install "prisma" with the right permissions.`); } } debug(`Downloading ${downloadUrl} to ${targetFilePath} ...`); if (progressCb) { progressCb(0); } const { sha256, zippedSha256 } = await (0, import_chunk_CY52DY2B.downloadZip)(downloadUrl, targetFilePath, progressCb); if (progressCb) { progressCb(1); } (0, import_chunk_7JLQJWOR.chmodPlusX)(targetFilePath); await saveFileToCache(options, version, sha256, zippedSha256); } async function saveFileToCache(job, version, sha256, zippedSha256) { const cacheDir = await (0, import_chunk_LONQL55G.getCacheDir)(channel, version, job.binaryTarget); if (!cacheDir) { return; } const cachedTargetPath = import_node_path.default.join(cacheDir, job.binaryName); const cachedSha256Path = import_node_path.default.join(cacheDir, job.binaryName + ".sha256"); const cachedSha256ZippedPath = import_node_path.default.join(cacheDir, job.binaryName + ".gz.sha256"); try { await (0, import_chunk_LONQL55G.overwriteFile)(job.targetFilePath, cachedTargetPath); if (sha256 != null) { await import_node_fs.default.promises.writeFile(cachedSha256Path, sha256); } if (zippedSha256 != null) { await import_node_fs.default.promises.writeFile(cachedSha256ZippedPath, zippedSha256); } } catch (e) { debug(e); } } async function maybeCopyToTmp(file) { if (__dirname.match(vercelPkgPathRegex)) { const targetDir = import_node_path.default.join(import_temp_dir.default, "prisma-binaries"); await (0, import_fs_extra.ensureDir)(targetDir); const target = import_node_path.default.join(targetDir, import_node_path.default.basename(file)); const data = await import_node_fs.default.promises.readFile(file); await import_node_fs.default.promises.writeFile(target, data); plusX(target); return target; } return file; } function plusX(file) { const s = import_node_fs.default.statSync(file); const newMode = s.mode | 64 | 8 | 1; if (s.mode === newMode) { return; } const base8 = newMode.toString(8).slice(-3); import_node_fs.default.chmodSync(file, base8); }