| // Copyright (C) 2019 The Android Open Source Project |
| // |
| // Licensed under the Apache License, Version 2.0 (the "License"); |
| // you may not use this file except in compliance with the License. |
| // You may obtain a copy of the License at |
| // |
| // http://www.apache.org/licenses/LICENSE-2.0 |
| // |
| // Unless required by applicable law or agreed to in writing, software |
| // distributed under the License is distributed on an "AS IS" BASIS, |
| // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| // See the License for the specific language governing permissions and |
| // limitations under the License. |
| |
| import {assertExists} from '../base/logging'; |
| import {isString} from '../base/object_utils'; |
| import {utf8Decode, utf8Encode} from '../base/string_utils'; |
| import {Adb, AdbMsg, AdbStream, CmdType} from './adb_interfaces'; |
| |
| export const VERSION_WITH_CHECKSUM = 0x01000000; |
| export const VERSION_NO_CHECKSUM = 0x01000001; |
| export const DEFAULT_MAX_PAYLOAD_BYTES = 256 * 1024; |
| |
| export enum AdbState { |
| DISCONNECTED = 0, |
| // Authentication steps, see AdbOverWebUsb's handleAuthentication(). |
| AUTH_STEP1 = 1, |
| AUTH_STEP2 = 2, |
| AUTH_STEP3 = 3, |
| |
| CONNECTED = 2, |
| } |
| |
| enum AuthCmd { |
| TOKEN = 1, |
| SIGNATURE = 2, |
| RSAPUBLICKEY = 3, |
| } |
| |
| const DEVICE_NOT_SET_ERROR = 'Device not set.'; |
| |
| // This class is a basic TypeScript implementation of adb that only supports |
| // shell commands. It is used to send the start tracing command to the connected |
| // android device, and to automatically pull the trace after the end of the |
| // recording. It works through the webUSB API. A brief description of how it |
| // works is the following: |
| // - The connection with the device is initiated by findAndConnect, which shows |
| // a dialog with a list of connected devices. Once one is selected the |
| // authentication begins. The authentication has to pass different steps, as |
| // described in the "handeAuthentication" method. |
| // - AdbOverWebUsb tracks the state of the authentication via a state machine |
| // (see AdbState). |
| // - A Message handler loop is executed to keep receiving the messages. |
| // - All the messages received from the device are passed to "onMessage" that is |
| // implemented as a state machine. |
| // - When a new shell is established, it becomes an AdbStream, and is kept in |
| // the "streams" map. Each time a message from the device is for a specific |
| // previously opened stream, the "onMessage" function will forward it to the |
| // stream (identified by a number). |
| export class AdbOverWebUsb implements Adb { |
| state: AdbState = AdbState.DISCONNECTED; |
| streams = new Map<number, AdbStream>(); |
| devProps = ''; |
| maxPayload = DEFAULT_MAX_PAYLOAD_BYTES; |
| key?: CryptoKeyPair; |
| onConnected = () => {}; |
| |
| // Devices after Dec 2017 don't use checksum. This will be auto-detected |
| // during the connection. |
| useChecksum = true; |
| |
| private lastStreamId = 0; |
| private dev?: USBDevice; |
| private usbInterfaceNumber?: number; |
| private usbReadEndpoint = -1; |
| private usbWriteEpEndpoint = -1; |
| private filter = { |
| classCode: 255, // USB vendor specific code |
| subclassCode: 66, // Android vendor specific subclass |
| protocolCode: 1, // Adb protocol |
| }; |
| |
| async findDevice() { |
| if (!('usb' in navigator)) { |
| throw new Error('WebUSB not supported by the browser (requires HTTPS)'); |
| } |
| return navigator.usb.requestDevice({filters: [this.filter]}); |
| } |
| |
| async getPairedDevices() { |
| try { |
| return await navigator.usb.getDevices(); |
| } catch (e) { |
| // WebUSB not available. |
| return Promise.resolve([]); |
| } |
| } |
| |
| async connect(device: USBDevice): Promise<void> { |
| // If we are already connected, we are also already authenticated, so we can |
| // skip doing the authentication again. |
| if (this.state === AdbState.CONNECTED) { |
| if (this.dev === device && device.opened) { |
| this.onConnected(); |
| this.onConnected = () => {}; |
| return; |
| } |
| // Another device was connected. |
| await this.disconnect(); |
| } |
| |
| this.dev = device; |
| this.useChecksum = true; |
| this.key = await AdbOverWebUsb.initKey(); |
| |
| await this.dev.open(); |
| |
| const {configValue, usbInterfaceNumber, endpoints} = |
| this.findInterfaceAndEndpoint(); |
| this.usbInterfaceNumber = usbInterfaceNumber; |
| |
| this.usbReadEndpoint = this.findEndpointNumber(endpoints, 'in'); |
| this.usbWriteEpEndpoint = this.findEndpointNumber(endpoints, 'out'); |
| |
| console.assert(this.usbReadEndpoint >= 0 && this.usbWriteEpEndpoint >= 0); |
| |
| await this.dev.selectConfiguration(configValue); |
| await this.dev.claimInterface(usbInterfaceNumber); |
| |
| await this.startAuthentication(); |
| |
| // This will start a message handler loop. |
| this.receiveDeviceMessages(); |
| // The promise will be resolved after the handshake. |
| return new Promise<void>((resolve, _) => (this.onConnected = resolve)); |
| } |
| |
| async disconnect(): Promise<void> { |
| if (this.state === AdbState.DISCONNECTED) { |
| return; |
| } |
| this.state = AdbState.DISCONNECTED; |
| |
| if (!this.dev) return; |
| |
| new Map(this.streams).forEach((stream, _id) => stream.setClosed()); |
| console.assert(this.streams.size === 0); |
| |
| await this.dev.releaseInterface(assertExists(this.usbInterfaceNumber)); |
| this.dev = undefined; |
| this.usbInterfaceNumber = undefined; |
| } |
| |
| async startAuthentication() { |
| // USB connected, now let's authenticate. |
| const VERSION = this.useChecksum |
| ? VERSION_WITH_CHECKSUM |
| : VERSION_NO_CHECKSUM; |
| this.state = AdbState.AUTH_STEP1; |
| await this.send('CNXN', VERSION, this.maxPayload, 'host:1:UsbADB'); |
| } |
| |
| findInterfaceAndEndpoint() { |
| if (!this.dev) throw Error(DEVICE_NOT_SET_ERROR); |
| for (const config of this.dev.configurations) { |
| for (const interface_ of config.interfaces) { |
| for (const alt of interface_.alternates) { |
| if ( |
| alt.interfaceClass === this.filter.classCode && |
| alt.interfaceSubclass === this.filter.subclassCode && |
| alt.interfaceProtocol === this.filter.protocolCode |
| ) { |
| return { |
| configValue: config.configurationValue, |
| usbInterfaceNumber: interface_.interfaceNumber, |
| endpoints: alt.endpoints, |
| }; |
| } // if (alternate) |
| } // for (interface.alternates) |
| } // for (configuration.interfaces) |
| } // for (configurations) |
| |
| throw Error('Cannot find interfaces and endpoints'); |
| } |
| |
| findEndpointNumber( |
| endpoints: USBEndpoint[], |
| direction: 'out' | 'in', |
| type = 'bulk', |
| ): number { |
| const ep = endpoints.find( |
| (ep) => ep.type === type && ep.direction === direction, |
| ); |
| |
| if (ep) return ep.endpointNumber; |
| |
| throw Error(`Cannot find ${direction} endpoint`); |
| } |
| |
| receiveDeviceMessages() { |
| this.recv() |
| .then((msg) => { |
| this.onMessage(msg); |
| this.receiveDeviceMessages(); |
| }) |
| .catch((e) => { |
| // Ignore error with "DEVICE_NOT_SET_ERROR" message since it is always |
| // thrown after the device disconnects. |
| if (e.message !== DEVICE_NOT_SET_ERROR) { |
| console.error(`Exception in recv: ${e.name}. error: ${e.message}`); |
| } |
| this.disconnect(); |
| }); |
| } |
| |
| async onMessage(msg: AdbMsg) { |
| if (!this.key) throw Error('ADB key not initialized'); |
| |
| if (msg.cmd === 'AUTH' && msg.arg0 === AuthCmd.TOKEN) { |
| this.handleAuthentication(msg); |
| } else if (msg.cmd === 'CNXN') { |
| console.assert( |
| [AdbState.AUTH_STEP2, AdbState.AUTH_STEP3].includes(this.state), |
| ); |
| this.state = AdbState.CONNECTED; |
| this.handleConnectedMessage(msg); |
| } else if ( |
| this.state === AdbState.CONNECTED && |
| ['OKAY', 'WRTE', 'CLSE'].indexOf(msg.cmd) >= 0 |
| ) { |
| const stream = this.streams.get(msg.arg1); |
| if (!stream) { |
| console.warn(`Received message ${msg} for unknown stream ${msg.arg1}`); |
| return; |
| } |
| stream.onMessage(msg); |
| } else { |
| console.error(`Unexpected message `, msg, ` in state ${this.state}`); |
| } |
| } |
| |
| async handleAuthentication(msg: AdbMsg) { |
| if (!this.key) throw Error('ADB key not initialized'); |
| |
| console.assert(msg.cmd === 'AUTH' && msg.arg0 === AuthCmd.TOKEN); |
| const token = msg.data; |
| |
| if (this.state === AdbState.AUTH_STEP1) { |
| // During this step, we send back the token received signed with our |
| // private key. If the device has previously received our public key, the |
| // dialog will not be displayed. Otherwise we will receive another message |
| // ending up in AUTH_STEP3. |
| this.state = AdbState.AUTH_STEP2; |
| |
| const signedToken = await signAdbTokenWithPrivateKey( |
| this.key.privateKey, |
| token, |
| ); |
| this.send('AUTH', AuthCmd.SIGNATURE, 0, new Uint8Array(signedToken)); |
| return; |
| } |
| |
| console.assert(this.state === AdbState.AUTH_STEP2); |
| |
| // During this step, we send our public key. The dialog will appear, and |
| // if the user chooses to remember our public key, it will be |
| // saved, so that the next time we will only pass through AUTH_STEP1. |
| this.state = AdbState.AUTH_STEP3; |
| const encodedPubKey = await encodePubKey(this.key.publicKey); |
| this.send('AUTH', AuthCmd.RSAPUBLICKEY, 0, encodedPubKey); |
| } |
| |
| private handleConnectedMessage(msg: AdbMsg) { |
| console.assert(msg.cmd === 'CNXN'); |
| |
| this.maxPayload = msg.arg1; |
| this.devProps = utf8Decode(msg.data); |
| |
| const deviceVersion = msg.arg0; |
| |
| if (![VERSION_WITH_CHECKSUM, VERSION_NO_CHECKSUM].includes(deviceVersion)) { |
| console.error('Version ', msg.arg0, ' not really supported!'); |
| } |
| this.useChecksum = deviceVersion === VERSION_WITH_CHECKSUM; |
| this.state = AdbState.CONNECTED; |
| |
| // This will resolve the promise returned by "onConnect" |
| this.onConnected(); |
| this.onConnected = () => {}; |
| } |
| |
| shell(cmd: string): Promise<AdbStream> { |
| return this.openStream('shell:' + cmd); |
| } |
| |
| socket(path: string): Promise<AdbStream> { |
| return this.openStream('localfilesystem:' + path); |
| } |
| |
| openStream(svc: string): Promise<AdbStream> { |
| const stream = new AdbStreamImpl(this, ++this.lastStreamId); |
| this.streams.set(stream.localStreamId, stream); |
| this.send('OPEN', stream.localStreamId, 0, svc); |
| |
| // The stream will resolve this promise once it receives the |
| // acknowledgement message from the device. |
| return new Promise<AdbStream>((resolve, reject) => { |
| stream.onConnect = () => { |
| stream.onClose = () => {}; |
| resolve(stream); |
| }; |
| stream.onClose = () => |
| reject(new Error(`Failed to openStream svc=${svc}`)); |
| }); |
| } |
| |
| async shellOutputAsString(cmd: string): Promise<string> { |
| const shell = await this.shell(cmd); |
| |
| return new Promise<string>((resolve, _) => { |
| const output: string[] = []; |
| shell.onData = (raw) => output.push(utf8Decode(raw)); |
| shell.onClose = () => resolve(output.join()); |
| }); |
| } |
| |
| async send( |
| cmd: CmdType, |
| arg0: number, |
| arg1: number, |
| data?: Uint8Array | string, |
| ) { |
| await this.sendMsg( |
| AdbMsgImpl.create({cmd, arg0, arg1, data, useChecksum: this.useChecksum}), |
| ); |
| } |
| |
| // The header and the message data must be sent consecutively. Using 2 awaits |
| // Another message can interleave after the first header has been sent, |
| // resulting in something like [header1] [header2] [data1] [data2]; |
| // In this way we are waiting both promises to be resolved before continuing. |
| async sendMsg(msg: AdbMsgImpl) { |
| const sendPromises = [this.sendRaw(msg.encodeHeader())]; |
| if (msg.data.length > 0) sendPromises.push(this.sendRaw(msg.data)); |
| await Promise.all(sendPromises); |
| } |
| |
| async recv(): Promise<AdbMsg> { |
| const res = await this.recvRaw(ADB_MSG_SIZE); |
| console.assert(res.status === 'ok'); |
| const msg = AdbMsgImpl.decodeHeader(res.data!); |
| |
| if (msg.dataLen > 0) { |
| const resp = await this.recvRaw(msg.dataLen); |
| msg.data = new Uint8Array( |
| resp.data!.buffer, |
| resp.data!.byteOffset, |
| resp.data!.byteLength, |
| ); |
| } |
| if (this.useChecksum) { |
| console.assert(AdbOverWebUsb.checksum(msg.data) === msg.dataChecksum); |
| } |
| return msg; |
| } |
| |
| static async initKey(): Promise<CryptoKeyPair> { |
| const KEY_SIZE = 2048; |
| |
| const keySpec = { |
| name: 'RSASSA-PKCS1-v1_5', |
| modulusLength: KEY_SIZE, |
| publicExponent: new Uint8Array([0x01, 0x00, 0x01]), |
| hash: {name: 'SHA-1'}, |
| }; |
| |
| const key = await crypto.subtle.generateKey( |
| keySpec, |
| /* extractable=*/ true, |
| ['sign', 'verify'], |
| ); |
| return key; |
| } |
| |
| static checksum(data: Uint8Array): number { |
| let res = 0; |
| for (let i = 0; i < data.byteLength; i++) res += data[i]; |
| return res & 0xffffffff; |
| } |
| |
| sendRaw(buf: Uint8Array): Promise<USBOutTransferResult> { |
| console.assert(buf.length <= this.maxPayload); |
| if (!this.dev) throw Error(DEVICE_NOT_SET_ERROR); |
| return this.dev.transferOut(this.usbWriteEpEndpoint, buf.buffer); |
| } |
| |
| recvRaw(dataLen: number): Promise<USBInTransferResult> { |
| if (!this.dev) throw Error(DEVICE_NOT_SET_ERROR); |
| return this.dev.transferIn(this.usbReadEndpoint, dataLen); |
| } |
| } |
| |
| enum AdbStreamState { |
| WAITING_INITIAL_OKAY = 0, |
| CONNECTED = 1, |
| CLOSED = 2, |
| } |
| |
| // An AdbStream is instantiated after the creation of a shell to the device. |
| // Thanks to this, we can send commands and receive their output. Messages are |
| // received in the main adb class, and are forwarded to an instance of this |
| // class based on a stream id match. Also streams have an initialization flow: |
| // 1. WAITING_INITIAL_OKAY: waiting for first "OKAY" message. Once received, |
| // the next state will be "CONNECTED". |
| // 2. CONNECTED: ready to receive or send messages. |
| // 3. WRITING: this is needed because we must receive an ack after sending |
| // each message (so, before sending the next one). For this reason, many |
| // subsequent "write" calls will result in different messages in the |
| // writeQueue. After each new acknowledgement ('OKAY') a new one will be |
| // sent. When the queue is empty, the state will return to CONNECTED. |
| // 4. CLOSED: entered when the device closes the stream or close() is called. |
| // For shell commands, the stream is closed after the command completed. |
| export class AdbStreamImpl implements AdbStream { |
| private adb: AdbOverWebUsb; |
| localStreamId: number; |
| private remoteStreamId = -1; |
| private state: AdbStreamState = AdbStreamState.WAITING_INITIAL_OKAY; |
| private writeQueue: Uint8Array[] = []; |
| private sendInProgress = false; |
| |
| onData: AdbStreamReadCallback = (_) => {}; |
| onConnect = () => {}; |
| onClose = () => {}; |
| |
| constructor(adb: AdbOverWebUsb, localStreamId: number) { |
| this.adb = adb; |
| this.localStreamId = localStreamId; |
| } |
| |
| close() { |
| console.assert(this.state === AdbStreamState.CONNECTED); |
| |
| if (this.writeQueue.length > 0) { |
| console.error( |
| `Dropping ${this.writeQueue.length} queued messages due to stream closing.`, |
| ); |
| this.writeQueue = []; |
| } |
| |
| this.adb.send('CLSE', this.localStreamId, this.remoteStreamId); |
| } |
| |
| async write(msg: string | Uint8Array) { |
| const raw = isString(msg) ? utf8Encode(msg) : msg; |
| if ( |
| this.sendInProgress || |
| this.state === AdbStreamState.WAITING_INITIAL_OKAY |
| ) { |
| this.writeQueue.push(raw); |
| return; |
| } |
| console.assert(this.state === AdbStreamState.CONNECTED); |
| this.sendInProgress = true; |
| await this.adb.send('WRTE', this.localStreamId, this.remoteStreamId, raw); |
| } |
| |
| setClosed() { |
| this.state = AdbStreamState.CLOSED; |
| this.adb.streams.delete(this.localStreamId); |
| this.onClose(); |
| } |
| |
| onMessage(msg: AdbMsgImpl) { |
| console.assert(msg.arg1 === this.localStreamId); |
| |
| if ( |
| this.state === AdbStreamState.WAITING_INITIAL_OKAY && |
| msg.cmd === 'OKAY' |
| ) { |
| this.remoteStreamId = msg.arg0; |
| this.state = AdbStreamState.CONNECTED; |
| this.onConnect(); |
| return; |
| } |
| |
| if (msg.cmd === 'WRTE') { |
| this.adb.send('OKAY', this.localStreamId, this.remoteStreamId); |
| this.onData(msg.data); |
| return; |
| } |
| |
| if (msg.cmd === 'OKAY') { |
| console.assert(this.sendInProgress); |
| this.sendInProgress = false; |
| const queuedMsg = this.writeQueue.shift(); |
| if (queuedMsg !== undefined) this.write(queuedMsg); |
| return; |
| } |
| |
| if (msg.cmd === 'CLSE') { |
| this.setClosed(); |
| return; |
| } |
| console.error( |
| `Unexpected stream msg ${msg.toString()} in state ${this.state}`, |
| ); |
| } |
| } |
| |
| interface AdbStreamReadCallback { |
| (raw: Uint8Array): void; |
| } |
| |
| const ADB_MSG_SIZE = 6 * 4; // 6 * int32. |
| |
| export class AdbMsgImpl implements AdbMsg { |
| cmd: CmdType; |
| arg0: number; |
| arg1: number; |
| data: Uint8Array; |
| dataLen: number; |
| dataChecksum: number; |
| |
| useChecksum: boolean; |
| |
| constructor( |
| cmd: CmdType, |
| arg0: number, |
| arg1: number, |
| dataLen: number, |
| dataChecksum: number, |
| useChecksum = false, |
| ) { |
| console.assert(cmd.length === 4); |
| this.cmd = cmd; |
| this.arg0 = arg0; |
| this.arg1 = arg1; |
| this.dataLen = dataLen; |
| this.data = new Uint8Array(dataLen); |
| this.dataChecksum = dataChecksum; |
| this.useChecksum = useChecksum; |
| } |
| |
| static create({ |
| cmd, |
| arg0, |
| arg1, |
| data, |
| useChecksum = true, |
| }: { |
| cmd: CmdType; |
| arg0: number; |
| arg1: number; |
| data?: Uint8Array | string; |
| useChecksum?: boolean; |
| }): AdbMsgImpl { |
| const encodedData = this.encodeData(data); |
| const msg = new AdbMsgImpl( |
| cmd, |
| arg0, |
| arg1, |
| encodedData.length, |
| 0, |
| useChecksum, |
| ); |
| msg.data = encodedData; |
| return msg; |
| } |
| |
| get dataStr() { |
| return utf8Decode(this.data); |
| } |
| |
| toString() { |
| return `${this.cmd} [${this.arg0},${this.arg1}] ${this.dataStr}`; |
| } |
| |
| // A brief description of the message can be found here: |
| // https://android.googlesource.com/platform/system/core/+/main/adb/protocol.txt |
| // |
| // struct amessage { |
| // uint32_t command; // command identifier constant |
| // uint32_t arg0; // first argument |
| // uint32_t arg1; // second argument |
| // uint32_t data_length;// length of payload (0 is allowed) |
| // uint32_t data_check; // checksum of data payload |
| // uint32_t magic; // command ^ 0xffffffff |
| // }; |
| static decodeHeader(dv: DataView): AdbMsgImpl { |
| console.assert(dv.byteLength === ADB_MSG_SIZE); |
| const cmd = utf8Decode(dv.buffer.slice(0, 4)) as CmdType; |
| const cmdNum = dv.getUint32(0, true); |
| const arg0 = dv.getUint32(4, true); |
| const arg1 = dv.getUint32(8, true); |
| const dataLen = dv.getUint32(12, true); |
| const dataChecksum = dv.getUint32(16, true); |
| const cmdChecksum = dv.getUint32(20, true); |
| console.assert(cmdNum === (cmdChecksum ^ 0xffffffff)); |
| return new AdbMsgImpl(cmd, arg0, arg1, dataLen, dataChecksum); |
| } |
| |
| encodeHeader(): Uint8Array { |
| const buf = new Uint8Array(ADB_MSG_SIZE); |
| const dv = new DataView(buf.buffer); |
| const cmdBytes: Uint8Array = utf8Encode(this.cmd); |
| const rawMsg = AdbMsgImpl.encodeData(this.data); |
| const checksum = this.useChecksum ? AdbOverWebUsb.checksum(rawMsg) : 0; |
| for (let i = 0; i < 4; i++) dv.setUint8(i, cmdBytes[i]); |
| |
| dv.setUint32(4, this.arg0, true); |
| dv.setUint32(8, this.arg1, true); |
| dv.setUint32(12, rawMsg.byteLength, true); |
| dv.setUint32(16, checksum, true); |
| dv.setUint32(20, dv.getUint32(0, true) ^ 0xffffffff, true); |
| |
| return buf; |
| } |
| |
| static encodeData(data?: Uint8Array | string): Uint8Array { |
| if (data === undefined) return new Uint8Array([]); |
| if (isString(data)) return utf8Encode(data + '\0'); |
| return data; |
| } |
| } |
| |
| function base64StringToArray(s: string) { |
| const decoded = atob(s.replaceAll('-', '+').replaceAll('_', '/')); |
| return [...decoded].map((char) => char.charCodeAt(0)); |
| } |
| |
| const ANDROID_PUBKEY_MODULUS_SIZE = 2048; |
| const MODULUS_SIZE_BYTES = ANDROID_PUBKEY_MODULUS_SIZE / 8; |
| |
| // RSA Public keys are encoded in a rather unique way. It's a base64 encoded |
| // struct of 524 bytes in total as follows (see |
| // libcrypto_utils/android_pubkey.c): |
| // |
| // typedef struct RSAPublicKey { |
| // // Modulus length. This must be ANDROID_PUBKEY_MODULUS_SIZE. |
| // uint32_t modulus_size_words; |
| // |
| // // Precomputed montgomery parameter: -1 / n[0] mod 2^32 |
| // uint32_t n0inv; |
| // |
| // // RSA modulus as a little-endian array. |
| // uint8_t modulus[ANDROID_PUBKEY_MODULUS_SIZE]; |
| // |
| // // Montgomery parameter R^2 as a little-endian array of little-endian |
| // words. uint8_t rr[ANDROID_PUBKEY_MODULUS_SIZE]; |
| // |
| // // RSA modulus: 3 or 65537 |
| // uint32_t exponent; |
| // } RSAPublicKey; |
| // |
| // However, the Montgomery params (n0inv and rr) are not really used, see |
| // comment in android_pubkey_decode() ("Note that we don't extract the |
| // montgomery parameters...") |
| async function encodePubKey(key: CryptoKey) { |
| const expPubKey = await crypto.subtle.exportKey('jwk', key); |
| const nArr = base64StringToArray(expPubKey.n as string).reverse(); |
| const eArr = base64StringToArray(expPubKey.e as string).reverse(); |
| |
| const arr = new Uint8Array(3 * 4 + 2 * MODULUS_SIZE_BYTES); |
| const dv = new DataView(arr.buffer); |
| dv.setUint32(0, MODULUS_SIZE_BYTES / 4, true); |
| |
| // The Mongomery params (n0inv and rr) are not computed. |
| dv.setUint32(4, 0 /* n0inv*/, true); |
| // Modulus |
| for (let i = 0; i < MODULUS_SIZE_BYTES; i++) dv.setUint8(8 + i, nArr[i]); |
| |
| // rr: |
| for (let i = 0; i < MODULUS_SIZE_BYTES; i++) { |
| dv.setUint8(8 + MODULUS_SIZE_BYTES + i, 0 /* rr*/); |
| } |
| // Exponent |
| for (let i = 0; i < 4; i++) { |
| dv.setUint8(8 + 2 * MODULUS_SIZE_BYTES + i, eArr[i]); |
| } |
| return ( |
| btoa(String.fromCharCode(...new Uint8Array(dv.buffer))) + ' perfetto@webusb' |
| ); |
| } |
| |
| // TODO(nicomazz): This token signature will be useful only when we save the |
| // generated keys. So far, we are not doing so. As a consequence, a dialog is |
| // displayed every time a tracing session is started. |
| // The reason why it has not already been implemented is that the standard |
| // crypto.subtle.sign function assumes that the input needs hashing, which is |
| // not the case for ADB, where the 20 bytes token is already hashed. |
| // A solution to this is implementing a custom private key signature with a js |
| // implementation of big integers. Maybe, wrapping the key like in the following |
| // CL can work: |
| // https://android-review.googlesource.com/c/platform/external/perfetto/+/1105354/18 |
| async function signAdbTokenWithPrivateKey( |
| _privateKey: CryptoKey, |
| token: Uint8Array, |
| ): Promise<ArrayBuffer> { |
| // This function is not implemented. |
| return token.buffer; |
| } |