/// /// import * as fs from "fs"; import * as path from "path"; import * as child_process from "child_process"; let writeFileAsync: any = Promise.promisify(fs.writeFile) let execAsync: (cmd: string, options?: { cwd?: string }) => Promise = Promise.promisify(child_process.exec) let readDirAsync = Promise.promisify(fs.readdir) export function deployCoreAsync(res: ts.pxtc.CompileResult) { return getBitDrivesAsync() .then(drives => { if (drives.length == 0) { console.log("cannot find any drives to deploy to"); return Promise.resolve(0); } console.log(`copy ${ts.pxtc.BINARY_HEX} to ` + drives.join(", ")); let writeHexFile = (filename: string) => { return writeFileAsync(filename + ts.pxtc.BINARY_HEX, res.outfiles[ts.pxtc.BINARY_HEX]) .then(() => console.log("wrote hex file to " + filename)); }; return Promise.map(drives, d => writeHexFile(d)) .then(() => drives.length); }); } function getBitDrivesAsync(): Promise { if (process.platform == "win32") { const rx = new RegExp("^([A-Z]:).* " + pxt.appTarget.compile.deployDrives) return execAsync("wmic PATH Win32_LogicalDisk get DeviceID, VolumeName, FileSystem") .then(buf => { let res: string[] = [] buf.toString("utf8").split(/\n/).forEach(ln => { let m = rx.exec(ln) if (m) { res.push(m[1] + "/") } }) return res }) } else if (process.platform == "darwin") { const rx = new RegExp(pxt.appTarget.compile.deployDrives) return readDirAsync("/Volumes") .then(lst => lst.filter(s => rx.test(s)).map(s => "/Volumes/" + s + "/")) } else if (process.platform == "linux") { const rx = new RegExp(pxt.appTarget.compile.deployDrives) const user = process.env["USER"] return readDirAsync(`/media/${user}`) .then(lst => lst.filter(s => rx.test(s)).map(s => `/media/${user}/${s}/`)) } else { return Promise.resolve([]) } }