gristlabs_grist-core/app/server/lib/NSandbox.ts
George Gevoian 0cadb93d25 (core) Update dependencies
Summary:
Changes the minimum version of Node to 18, and updates the Docker images and GitHub workflows to build Grist with Node 18.

Also updates various dependencies and scripts to support building running tests with arm64 builds of Node.

Test Plan: Existing tests.

Reviewers: paulfitz

Reviewed By: paulfitz

Differential Revision: https://phab.getgrist.com/D3968
2023-10-11 17:36:58 -04:00

1085 lines
43 KiB
TypeScript

/**
* JS controller for the pypy sandbox.
*/
import {arrayToString} from 'app/common/arrayToString';
import * as marshal from 'app/common/marshal';
import {create} from 'app/server/lib/create';
import {ISandbox, ISandboxCreationOptions, ISandboxCreator} from 'app/server/lib/ISandbox';
import log from 'app/server/lib/log';
import {getAppRoot, getAppRootFor, getUnpackedAppRoot} from 'app/server/lib/places';
import {
DirectProcessControl,
ISandboxControl,
NoProcessControl,
ProcessInfo,
SubprocessControl
} from 'app/server/lib/SandboxControl';
import * as sandboxUtil from 'app/server/lib/sandboxUtil';
import * as shutdown from 'app/server/lib/shutdown';
import {ChildProcess, fork, spawn} from 'child_process';
import * as fs from 'fs';
import * as _ from 'lodash';
import * as path from 'path';
import {Stream, Writable} from 'stream';
import * as which from 'which';
type SandboxMethod = (...args: any[]) => any;
/**
*
* A collection of options for weird and wonderful ways to run Grist.
* The sandbox at heart is just python, but run in different ways
* (sandbox 'flavors': pynbox, docker, gvisor, and unsandboxed).
*
* The "command" is an external program/container to call to run the
* sandbox, and it depends on sandbox flavor. Pynbox is built into
* Grist and has a hard-wired command, so the command option should be
* empty. For gvisor and unsandboxed, command is the path to an
* external program to run. For docker, it is the name of an image.
*
* Once python is running, ordinarily some Grist code should be
* started by setting `useGristEntrypoint` (the only exception is
* in tests) which runs grist/main.py.
*/
export interface ISandboxOptions {
command?: string; // External program or container to call to run the sandbox.
args: string[]; // The arguments to pass to the python process.
preferredPythonVersion?: string; // Mandatory for gvisor; ignored by other methods.
// TODO: update
// ISandboxCreationOptions to talk about directories instead of
// mounts, since it may not be possible to remap directories as
// mounts (e.g. for unsandboxed operation).
importDir?: string; // a directory containing data file(s) to import by plugins
minimalPipeMode?: boolean; // Whether to use newer 3-pipe operation
deterministicMode?: boolean; // Whether to override time + randomness
exports?: {[name: string]: SandboxMethod}; // Functions made available to the sandboxed process.
logCalls?: boolean; // (Not implemented) Whether to log all system calls from the python sandbox.
logTimes?: boolean; // Whether to log time taken by calls to python sandbox.
unsilenceLog?: boolean; // Don't silence the sel_ldr logging (pynbox only).
logMeta?: log.ILogMeta; // Log metadata (e.g. including docId) to report in all log messages.
useGristEntrypoint?: boolean; // Should be set for everything except tests, which
// may want to pass arguments to python directly.
}
/**
* We interact with sandboxes as a separate child process. Data engine work is done
* across standard input and output streams from and to this process. We also monitor
* and control resource utilization via a distinct control interface.
*
* More recently, a sandbox may not be a separate OS process, but (for
* example) a web worker. In this case, a pair of callbacks (getData and
* sendData) replace pipes.
*/
export interface SandboxProcess {
child?: ChildProcess;
control: ISandboxControl;
dataToSandboxDescriptor?: number; // override sandbox's 'stdin' for data
dataFromSandboxDescriptor?: number; // override sandbox's 'stdout' for data
getData?: (cb: (data: any) => void) => void; // use a callback instead of a pipe to get data
sendData?: (data: any) => void; // use a callback instead of a pipe to send data
}
type ResolveRejectPair = [(value?: any) => void, (reason?: unknown) => void];
// Type for basic message identifiers, available as constants in sandboxUtil.
type MsgCode = null | true | false;
// Optional root folder to store binary data sent to and from the sandbox
// See test_replay.py
const recordBuffersRoot = process.env.RECORD_SANDBOX_BUFFERS_DIR;
export class NSandbox implements ISandbox {
public readonly childProc?: ChildProcess;
private _control: ISandboxControl;
private _logTimes: boolean;
private _exportedFunctions: {[name: string]: SandboxMethod};
private _marshaller = new marshal.Marshaller({stringToBuffer: false, version: 2});
private _unmarshaller = new marshal.Unmarshaller({ bufferToString: false });
// Members used for reading from the sandbox process.
private _pendingReads: ResolveRejectPair[] = [];
private _isReadClosed = false;
private _isWriteClosed = false;
private _logMeta: log.ILogMeta;
private _streamToSandbox?: Writable;
private _streamFromSandbox: Stream;
private _dataToSandbox?: (data: any) => void;
private _lastStderr: Uint8Array; // Record last error line seen.
// Create a unique subdirectory for each sandbox process so they can be replayed separately
private _recordBuffersDir = recordBuffersRoot ? path.resolve(recordBuffersRoot, new Date().toISOString()) : null;
/*
* Callers may listen to events from sandbox.childProc (a ChildProcess), e.g. 'close' and 'error'.
* The sandbox listens for 'aboutToExit' event on the process, to properly shut down.
*
* Grist interacts with the sandbox via message passing through pipes to an isolated
* process. Some read-only shared code is made available to the sandbox.
* For plugins, read-only data files are made available.
*
* At the time of writing, Grist has been using an NaCl sandbox with python2.7 compiled
* for it for several years (pynbox), and we are now experimenting with other sandboxing
* options. Variants can be activated by passing in a non-default "spawner" function.
*
*/
constructor(options: ISandboxOptions, spawner: SpawnFn = pynbox) {
this._logTimes = Boolean(options.logTimes || options.logCalls);
this._exportedFunctions = options.exports || {};
const sandboxProcess = spawner(options);
this._control = sandboxProcess.control;
this.childProc = sandboxProcess.child;
this._logMeta = {sandboxPid: this.childProc?.pid, ...options.logMeta};
if (this.childProc) {
if (options.minimalPipeMode) {
this._initializeMinimalPipeMode(sandboxProcess);
} else {
this._initializeFivePipeMode(sandboxProcess);
}
} else {
// No child process. In this case, there should be a callback for
// receiving and sending data.
if (!sandboxProcess.getData) {
throw new Error('no way to get data from sandbox');
}
if (!sandboxProcess.sendData) {
throw new Error('no way to send data to sandbox');
}
sandboxProcess.getData((data) => this._onSandboxData(data));
this._dataToSandbox = sandboxProcess.sendData;
}
// On shutdown, shutdown the child process cleanly, and wait for it to exit.
shutdown.addCleanupHandler(this, this.shutdown);
if (this._recordBuffersDir) {
log.rawDebug(`Recording sandbox buffers in ${this._recordBuffersDir}`, this._logMeta);
fs.mkdirSync(this._recordBuffersDir, {recursive: true});
}
}
/**
* Shuts down the sandbox process cleanly, and wait for it to exit.
* @return {Promise} Promise that's resolved with [code, signal] when the sandbox exits.
*/
public async shutdown() {
log.rawDebug("Sandbox shutdown starting", this._logMeta);
shutdown.removeCleanupHandlers(this);
// The signal ensures the sandbox process exits even if it's hanging in an infinite loop or
// long computation. It doesn't get a chance to clean up, but since it is sandboxed, there is
// nothing it needs to clean up anyway.
const timeoutID = setTimeout(async () => {
log.rawWarn("Sandbox sending SIGKILL", this._logMeta);
await this._control.kill();
}, 1000);
const result = await new Promise<void>((resolve, reject) => {
if (this._isWriteClosed) { resolve(); }
this.childProc?.on('error', reject);
this.childProc?.on('close', resolve);
this.childProc?.on('exit', resolve);
this._close();
}).finally(() => this._control.close());
// In the normal case, the kill timer is pending when the process exits, and we can clear it. If
// the process got killed, the timer is invalid, and clearTimeout() does nothing.
clearTimeout(timeoutID);
return result;
}
/**
* Makes a call to the python process implementing our calling convention on stdin/stdout.
* @param funcName The name of the python RPC function to call.
* @param args Arguments to pass to the given function.
* @returns A promise for the return value from the Python function.
*/
public async pyCall(funcName: string, ...varArgs: unknown[]): Promise<any> {
const startTime = Date.now();
this._sendData(sandboxUtil.CALL, Array.from(arguments));
const slowCallCheck = setTimeout(() => {
// Log calls that take some time, can be a useful symptom of misconfiguration
// (or just benign if the doc is big).
log.rawWarn('Slow pyCall', {...this._logMeta, funcName});
}, 10000);
try {
return await this._pyCallWait(funcName, startTime);
} finally {
clearTimeout(slowCallCheck);
}
}
/**
* Returns the RSS (resident set size) of the sandbox process, in bytes.
*/
public async reportMemoryUsage() {
const {memory} = await this._control.getUsage();
log.rawDebug('Sandbox memory', {memory, ...this._logMeta});
}
/**
* Get ready to communicate with a sandbox process using stdin,
* stdout, and stderr.
*/
private _initializeMinimalPipeMode(sandboxProcess: SandboxProcess) {
log.rawDebug("3-pipe Sandbox started", this._logMeta);
if (!this.childProc) {
throw new Error('child process required');
}
if (sandboxProcess.dataToSandboxDescriptor) {
this._streamToSandbox =
(this.childProc.stdio as Stream[])[sandboxProcess.dataToSandboxDescriptor] as Writable;
} else {
this._streamToSandbox = this.childProc.stdin!;
}
if (sandboxProcess.dataFromSandboxDescriptor) {
this._streamFromSandbox =
(this.childProc.stdio as Stream[])[sandboxProcess.dataFromSandboxDescriptor];
} else {
this._streamFromSandbox = this.childProc.stdout!;
}
this._initializeStreamEvents();
}
/**
* Get ready to communicate with a sandbox process using stdin,
* stdout, and stderr, and two extra FDs. This was a nice way
* to have a clean, separate data channel, when supported.
*/
private _initializeFivePipeMode(sandboxProcess: SandboxProcess) {
log.rawDebug("5-pipe Sandbox started", this._logMeta);
if (!this.childProc) {
throw new Error('child process required');
}
if (sandboxProcess.dataFromSandboxDescriptor || sandboxProcess.dataToSandboxDescriptor) {
throw new Error('cannot override file descriptors in 5 pipe mode');
}
this._streamToSandbox = (this.childProc.stdio as Stream[])[3] as Writable;
this._streamFromSandbox = (this.childProc.stdio as Stream[])[4];
this.childProc.stdout!.on('data', sandboxUtil.makeLinePrefixer('Sandbox stdout: ', this._logMeta));
this._initializeStreamEvents();
}
/**
* Set up logging and events on streams to/from a sandbox.
*/
private _initializeStreamEvents() {
if (!this.childProc) {
throw new Error('child process required');
}
if (!this._streamToSandbox) {
throw new Error('expected streamToSandbox to be configured');
}
const sandboxStderrLogger = sandboxUtil.makeLogLinePrefixer('Sandbox stderr: ', this._logMeta);
this.childProc.stderr!.on('data', data => {
this._lastStderr = data;
sandboxStderrLogger(data);
});
this.childProc.on('close', this._onExit.bind(this));
this.childProc.on('error', this._onError.bind(this));
this._streamFromSandbox.on('data', (data) => this._onSandboxData(data));
this._streamFromSandbox.on('end', () => this._onSandboxClose());
this._streamFromSandbox.on('error', (err) => {
log.rawError(`Sandbox error reading: ${err}`, this._logMeta);
this._onSandboxClose();
});
this._streamToSandbox.on('error', (err) => {
if (!this._isWriteClosed) {
log.rawError(`Sandbox error writing: ${err}`, this._logMeta);
}
});
}
private async _pyCallWait(funcName: string, startTime: number): Promise<any> {
try {
return await new Promise((resolve, reject) => {
this._pendingReads.push([resolve, reject]);
});
} catch (e) {
throw new sandboxUtil.SandboxError(e.message);
} finally {
if (this._logTimes) {
log.rawDebug(`Sandbox pyCall[${funcName}] took ${Date.now() - startTime} ms`, this._logMeta);
}
}
}
private _close() {
this._control.prepareToClose();
if (!this._isWriteClosed) {
// Close the pipe to the sandbox, which should cause the sandbox to exit cleanly.
this._streamToSandbox?.end();
this._isWriteClosed = true;
}
}
private _onExit(code: number, signal: string) {
const expected = this._isWriteClosed;
this._close();
if (expected) {
log.rawDebug(`Sandbox exited with code ${code} signal ${signal}`, this._logMeta);
} else {
log.rawWarn(`Sandbox unexpectedly exited with code ${code} signal ${signal}`, this._logMeta);
}
}
private _onError(err: Error) {
this._close();
log.rawWarn(`Sandbox could not be spawned: ${err}`, this._logMeta);
}
/**
* Send a message to the sandbox process with the given message code and data.
*/
private _sendData(msgCode: MsgCode, data: any) {
if (this._isReadClosed) {
throw this._sandboxClosedError('PipeToSandbox');
}
this._marshaller.marshal(msgCode);
this._marshaller.marshal(data);
const buf = this._marshaller.dumpAsBuffer();
if (this._recordBuffersDir) {
fs.appendFileSync(path.resolve(this._recordBuffersDir, "input"), buf);
}
if (this._streamToSandbox) {
return this._streamToSandbox.write(buf);
} else {
if (!this._dataToSandbox) {
throw new Error('no way to send data to sandbox');
}
this._dataToSandbox(buf);
return true;
}
}
/**
* Process a buffer of data received from the sandbox process.
*/
private _onSandboxData(data: any) {
this._unmarshaller.parse(data, buf => {
const value = marshal.loads(buf, { bufferToString: true });
if (this._recordBuffersDir) {
fs.appendFileSync(path.resolve(this._recordBuffersDir, "output"), buf);
}
this._onSandboxMsg(value[0], value[1]);
});
}
/**
* Process the closing of the pipe by the sandboxed process.
*/
private _onSandboxClose() {
this._control.prepareToClose();
this._isReadClosed = true;
// Clear out all reads pending on PipeFromSandbox, rejecting them with the given error.
const err = this._sandboxClosedError('PipeFromSandbox');
this._pendingReads.forEach(resolvePair => resolvePair[1](err));
this._pendingReads = [];
}
/**
* Generate an error message for a pipe to the sandbox. Include the
* last stderr line seen from the sandbox - more reliable than
* error results send via the standard protocol.
*/
private _sandboxClosedError(label: string) {
const parts = [`${label} is closed`];
if (this._lastStderr) {
parts.push(arrayToString(this._lastStderr));
}
return new sandboxUtil.SandboxError(parts.join(': '));
}
/**
* Process a parsed message from the sandboxed process.
*/
private _onSandboxMsg(msgCode: MsgCode, data: any) {
if (msgCode === sandboxUtil.CALL) {
// Handle calls FROM the sandbox.
if (!Array.isArray(data) || data.length === 0) {
log.rawWarn("Sandbox invalid call from the sandbox", this._logMeta);
} else {
const fname = data[0];
const args = data.slice(1);
log.rawDebug(`Sandbox got call to ${fname} (${args.length} args)`, this._logMeta);
Promise.resolve()
.then(() => {
const func = this._exportedFunctions[fname];
if (!func) { throw new Error("No such exported function: " + fname); }
return func(...args);
})
.then((ret) => {
this._sendData(sandboxUtil.DATA, ret);
}, (err) => {
this._sendData(sandboxUtil.EXC, err.toString());
})
.catch((err) => {
log.rawDebug(`Sandbox sending response failed: ${err}`, this._logMeta);
});
}
} else {
// Handle return values for calls made to the sandbox.
const resolvePair = this._pendingReads.shift();
if (resolvePair) {
if (msgCode === sandboxUtil.EXC) {
resolvePair[1](new Error(data));
} else if (msgCode === sandboxUtil.DATA) {
resolvePair[0](data);
} else {
log.rawWarn("Sandbox invalid message from sandbox", this._logMeta);
}
}
}
}
}
/**
* Functions for spawning all of the currently supported sandboxes.
*/
const spawners = {
pynbox, // Grist's "classic" sandbox - python2 within NaCl.
unsandboxed, // No sandboxing, straight to host python.
// This offers no protection to the host.
docker, // Run sandboxes in distinct docker containers.
gvisor, // Gvisor's runsc sandbox.
macSandboxExec, // Use "sandbox-exec" on Mac.
pyodide, // Run data engine using pyodide.
};
function isFlavor(flavor: string): flavor is keyof typeof spawners {
return flavor in spawners;
}
/**
* A sandbox factory. This doesn't do very much beyond remembering a default
* flavor of sandbox (which at the time of writing differs between hosted grist and
* grist-core), and trying to regularize creation options a bit.
*
* The flavor of sandbox to use can be overridden by some environment variables:
* - GRIST_SANDBOX_FLAVOR: should be one of the spawners (gvisor, unsandboxed, docker,
* macSandboxExec, pynbox)
* - GRIST_SANDBOX: a program or image name to run as the sandbox. Not needed for
* pynbox (it is either built in or not available). For unsandboxed, should be an
* absolute path to python within a virtualenv with all requirements installed.
* For docker, it should be `grist-docker-sandbox` (an image built via makefile
* in `sandbox/docker`) or a derived image. For gvisor, it should be the full path
* to `sandbox/gvisor/run.py` (if runsc available locally) or to
* `sandbox/gvisor/wrap_in_docker.sh` (if runsc should be run using the docker
* image built in that directory).
* - PYTHON_VERSION: for gvisor, this is mandatory, and must be set to "2" or "3".
* It is ignored by other flavors.
*/
export class NSandboxCreator implements ISandboxCreator {
private _flavor: string;
private _spawner: SpawnFn;
private _command?: string;
private _preferredPythonVersion?: string;
public constructor(options: {
defaultFlavor: string,
command?: string,
preferredPythonVersion?: string,
}) {
const flavor = options.defaultFlavor;
if (!isFlavor(flavor)) {
const variants = create.getSandboxVariants?.();
if (!variants?.[flavor]) {
throw new Error(`Unrecognized sandbox flavor: ${flavor}`);
} else {
this._spawner = variants[flavor];
}
} else {
this._spawner = spawners[flavor];
}
this._flavor = flavor;
this._command = options.command;
this._preferredPythonVersion = options.preferredPythonVersion;
}
public create(options: ISandboxCreationOptions): ISandbox {
const args: string[] = [];
if (!options.entryPoint && options.comment) {
// When using default entry point, we can add on a comment as an argument - it isn't
// used, but will show up in `ps` output for the sandbox process. Comment is intended
// to be a document name/id.
args.push(options.comment);
}
const translatedOptions: ISandboxOptions = {
minimalPipeMode: true,
deterministicMode: Boolean(process.env.LIBFAKETIME_PATH),
args,
logCalls: options.logCalls,
logMeta: {flavor: this._flavor, command: this._command,
entryPoint: options.entryPoint || '(default)',
...options.logMeta},
logTimes: options.logTimes,
command: this._command,
preferredPythonVersion: this._preferredPythonVersion || options.preferredPythonVersion,
useGristEntrypoint: true,
importDir: options.importMount,
...options.sandboxOptions,
};
return new NSandbox(translatedOptions, this._spawner);
}
}
// A function that takes sandbox options and starts a sandbox process.
export type SpawnFn = (options: ISandboxOptions) => SandboxProcess;
/**
* Helper function to run a nacl sandbox. It takes care of most arguments, similarly to
* nacl/bin/run script, but without the reliance on bash. We can't use bash when -r/-w options
* because on Windows it doesn't pass along the open file descriptors. Bash is also unavailable
* when installing a standalone version on Windows.
*
* This is quite old code, with attention to Windows support that is no longer tested.
* I've done my best to avoid changing behavior by not touching it too much.
*/
function pynbox(options: ISandboxOptions): SandboxProcess {
const {command, args: pythonArgs, unsilenceLog, importDir} = options;
if (command) {
throw new Error("NaCl can only run the specific python2.7 package built for it");
}
if (options.useGristEntrypoint) {
pythonArgs.unshift('grist/main.pyc');
}
const spawnOptions = {
stdio: ['pipe', 'pipe', 'pipe'] as 'pipe'[],
env: getWrappingEnv(options)
};
const wrapperArgs = new FlagBag({env: '-E', mount: '-m'});
if (importDir) {
wrapperArgs.addMount(`${importDir}:/importdir:ro`);
}
if (!options.minimalPipeMode) {
// add two more pipes
spawnOptions.stdio.push('pipe', 'pipe');
// We use these options to set up communication with the sandbox:
// -r 3:3 to associate a file descriptor 3 on the outside of the sandbox with FD 3 on the
// inside, for reading from the inside. This becomes `this._streamToSandbox`.
// -w 4:4 to associate FD 4 on the outside with FD 4 on the inside for writing from the inside.
// This becomes `this._streamFromSandbox`
wrapperArgs.push('-r', '3:3', '-w', '4:4');
}
wrapperArgs.addAllEnv(getInsertedEnv(options));
wrapperArgs.addEnv('PYTHONPATH', 'grist:thirdparty');
const noLog = unsilenceLog ? [] :
(process.env.OS === 'Windows_NT' ? ['-l', 'NUL'] : ['-l', '/dev/null']);
const child = spawn('sandbox/nacl/bin/sel_ldr', [
'-B', './sandbox/nacl/lib/irt_core.nexe', '-m', './sandbox/nacl/root:/:ro',
...noLog,
...wrapperArgs.get(),
'./sandbox/nacl/lib/runnable-ld.so',
'--library-path', '/slib', '/python/bin/python2.7.nexe',
...pythonArgs
], spawnOptions);
return {child, control: new DirectProcessControl(child, options.logMeta)};
}
/**
* Helper function to run python without sandboxing. GRIST_SANDBOX should have
* been set with an absolute path to a version of python within a virtualenv that
* has all the dependencies installed (e.g. the sandbox_venv3 virtualenv created
* by `./build python3`. Using system python works too, if all dependencies have
* been installed globally.
*/
function unsandboxed(options: ISandboxOptions): SandboxProcess {
const {args: pythonArgs, importDir} = options;
const paths = getAbsolutePaths(options);
if (options.useGristEntrypoint) {
pythonArgs.unshift(paths.main);
}
const spawnOptions = {
stdio: ['pipe', 'pipe', 'pipe'] as 'pipe'[],
env: {
PYTHONPATH: paths.engine,
IMPORTDIR: importDir,
...getInsertedEnv(options),
...getWrappingEnv(options),
}
};
if (!options.minimalPipeMode) {
spawnOptions.stdio.push('pipe', 'pipe');
}
const command = findPython(options.command, options.preferredPythonVersion);
const child = spawn(command, pythonArgs,
{cwd: path.join(process.cwd(), 'sandbox'), ...spawnOptions});
return {child, control: new DirectProcessControl(child, options.logMeta)};
}
function pyodide(options: ISandboxOptions): SandboxProcess {
const paths = getAbsolutePaths(options);
// We will fork with three regular pipes (stdin, stdout, stderr), then
// ipc (mandatory for calling fork), and a replacement pipe for stdin
// and for stdout.
// The regular stdin always opens non-blocking in node, which is a pain
// in this case, so we just use a different pipe. There's a different
// problem with stdout, with the same solution.
const spawnOptions = {
stdio: ['ignore', 'ignore', 'pipe', 'ipc', 'pipe', 'pipe'] as Array<'pipe'|'ipc'>,
env: {
PYTHONPATH: paths.engine,
IMPORTDIR: options.importDir,
...getInsertedEnv(options),
...getWrappingEnv(options),
}
};
const base = getUnpackedAppRoot();
const child = fork(path.join(base, 'sandbox', 'pyodide', 'pipe.js'),
{cwd: path.join(process.cwd(), 'sandbox'), ...spawnOptions});
return {
child,
control: new DirectProcessControl(child, options.logMeta),
dataToSandboxDescriptor: 4, // Cannot use normal descriptor, node
// makes it non-blocking. Can be worked around in linux and osx, but
// for windows just using a different file descriptor seems simplest.
// In the sandbox, calling async methods from emscripten code is
// possible but would require more changes to the data engine code
// than seems reasonable at this time. The top level sandbox.run
// can be tweaked to step operations, which actually works for a
// lot of things, but not for cases where the sandbox calls back
// into node (e.g. for column type guessing). TLDR: just switching
// to FD 4 and reading synchronously is more practical solution.
dataFromSandboxDescriptor: 5, // There's an equally long but different
// story about why stdout is a bit messed up under pyodide right now.
};
}
/**
* Helper function to run python in gvisor's runsc, with multiple
* sandboxes run within the same container. GRIST_SANDBOX should
* point to `sandbox/gvisor/run.py` (to map call onto gvisor's runsc
* directly) or `wrap_in_docker.sh` (to use runsc within a container).
* Be sure to read setup instructions in that directory.
*/
function gvisor(options: ISandboxOptions): SandboxProcess {
const {args: pythonArgs} = options;
let command = options.command;
if (!command) {
try {
// If runsc is available directly on the host, use the wrapper
// utility in sandbox/gvisor/run.py to run it.
which.sync('runsc');
command = 'sandbox/gvisor/run.py';
} catch(e) {
// Otherwise, don't try any heroics, user will need to
// explicitly set the command.
throw new Error('runsc not found');
}
}
if (!options.minimalPipeMode) {
throw new Error("gvisor only supports 3-pipe operation");
}
const paths = getAbsolutePaths(options);
const wrapperArgs = new FlagBag({env: '-E', mount: '-m'});
wrapperArgs.addEnv('PYTHONPATH', paths.engine);
wrapperArgs.addAllEnv(getInsertedEnv(options));
wrapperArgs.addMount(paths.sandboxDir);
if (paths.importDir) {
wrapperArgs.addMount(paths.importDir);
wrapperArgs.addEnv('IMPORTDIR', paths.importDir);
}
if (options.useGristEntrypoint) {
pythonArgs.unshift(paths.main);
}
if (options.deterministicMode) {
wrapperArgs.push('--faketime', FAKETIME);
}
const pythonVersion = options.preferredPythonVersion;
if (pythonVersion !== '2' && pythonVersion !== '3') {
throw new Error("PYTHON_VERSION must be set to 2 or 3");
}
// Check for local virtual environments created with core's
// install:python2 or install:python3 targets. They'll need
// some extra sharing to make available in the sandbox.
const venv = path.join(getAppRootFor(getAppRoot(), 'sandbox'),
pythonVersion === '2' ? 'venv' : 'sandbox_venv3');
if (fs.existsSync(venv)) {
wrapperArgs.addMount(venv);
wrapperArgs.push('-s', path.join(venv, 'bin', 'python'));
}
// For a regular sandbox not being used for importing, if GRIST_CHECKPOINT is set
// try to restore from it. If GRIST_CHECKPOINT_MAKE is set, try to recreate the
// checkpoint (this is an awkward place to do it, but avoids mismatches
// between the checkpoint and how it gets used later).
// If a sandbox is being used for import, it will have a special mount we can't
// deal with easily right now. Should be possible to do in future if desired.
if (options.useGristEntrypoint && pythonVersion === '3' && process.env.GRIST_CHECKPOINT && !paths.importDir) {
if (process.env.GRIST_CHECKPOINT_MAKE) {
const child =
spawn(command, [...wrapperArgs.get(), '--checkpoint', process.env.GRIST_CHECKPOINT!,
`python${pythonVersion}`, '--', ...pythonArgs]);
// We don't want process control for this.
return {child, control: new NoProcessControl(child)};
}
wrapperArgs.push('--restore');
wrapperArgs.push(process.env.GRIST_CHECKPOINT!);
}
const child = spawn(command, [...wrapperArgs.get(), `python${pythonVersion}`, '--', ...pythonArgs]);
if (!child.pid) {
throw new Error(`failed to spawn python${pythonVersion}`);
}
// For gvisor under ptrace, main work is done by a traced process identifiable as
// being labeled "exe" and having a parent also labeled "exe".
const recognizeTracedProcess = (p: ProcessInfo) => {
return p.label.includes('exe') && p.parentLabel.includes('exe');
};
// The traced process is managed by a regular process called "runsc-sandbox"
const recognizeSandboxProcess = (p: ProcessInfo) => {
return p.label.includes('runsc-sandbox');
};
// If docker is in use, this process control will log a warning message and do nothing.
return {child, control: new SubprocessControl({
pid: child.pid,
recognizers: {
sandbox: recognizeSandboxProcess, // this process we start and stop
memory: recognizeTracedProcess, // measure memory for the ptraced process
cpu: recognizeTracedProcess, // measure cpu for the ptraced process
traced: recognizeTracedProcess, // the ptraced process
},
logMeta: options.logMeta
})};
}
/**
* Helper function to run python in a container. Each sandbox run in a
* distinct container. GRIST_SANDBOX should be the name of an image where
* `python` can be run and all Grist dependencies are installed. See
* `sandbox/docker` for more.
*/
function docker(options: ISandboxOptions): SandboxProcess {
const {args: pythonArgs, command} = options;
if (options.useGristEntrypoint) {
pythonArgs.unshift('grist/main.py');
}
if (!options.minimalPipeMode) {
throw new Error("docker only supports 3-pipe operation (although runc has --preserve-file-descriptors)");
}
const paths = getAbsolutePaths(options);
const wrapperArgs = new FlagBag({env: '--env', mount: '-v'});
if (paths.importDir) {
wrapperArgs.addMount(`${paths.importDir}:/importdir:ro`);
}
wrapperArgs.addMount(`${paths.engine}:/grist:ro`);
wrapperArgs.addAllEnv(getInsertedEnv(options));
wrapperArgs.addEnv('PYTHONPATH', 'grist:thirdparty');
const commandParts: string[] = ['python'];
if (options.deterministicMode) {
// DETERMINISTIC_MODE is already set by getInsertedEnv(). We also take
// responsibility here for running faketime around python.
commandParts.unshift('faketime', '-f', FAKETIME);
}
const dockerPath = which.sync('docker');
const child = spawn(dockerPath, [
'run', '--rm', '-i', '--network', 'none',
...wrapperArgs.get(),
command || 'grist-docker-sandbox', // this is the docker image to use
...commandParts,
...pythonArgs,
]);
log.rawDebug("cannot do process control via docker yet", {...options.logMeta});
return {child, control: new NoProcessControl(child)};
}
/**
* Helper function to run python using the sandbox-exec command
* available on MacOS. This command is a bit shady - not much public
* documentation for it, and what there is has been marked deprecated
* for a few releases. But mac sandboxing seems to rely heavily on
* the infrastructure this command is a thin wrapper around, and there's
* no obvious native sandboxing alternative.
*/
function macSandboxExec(options: ISandboxOptions): SandboxProcess {
const {args: pythonArgs} = options;
if (!options.minimalPipeMode) {
throw new Error("macSandboxExec flavor only supports 3-pipe operation");
}
const paths = getAbsolutePaths(options);
if (options.useGristEntrypoint) {
pythonArgs.unshift(paths.main);
}
const env = {
PYTHONPATH: paths.engine,
IMPORTDIR: paths.importDir,
...getInsertedEnv(options),
...getWrappingEnv(options),
};
const command = findPython(options.command, options.preferredPythonVersion);
const realPath = realpathSync(command);
log.rawDebug("macSandboxExec found a python", {...options.logMeta, command: realPath});
// Prepare sandbox profile
const profile: string[] = [];
// Deny everything by default, including network
profile.push('(version 1)', '(deny default)');
// Allow execution of the command, either by name provided or ultimate symlink if different
profile.push(`(allow process-exec (literal ${JSON.stringify(command)}))`);
profile.push(`(allow process-exec (literal ${JSON.stringify(realPath)}))`);
// There are now a series of extra read and execute permissions added, to deal with the
// twisted maze of symlinks around python on a mac.
// For python symlinks to work, we need to allow reading all the intermediate directories
// (this is determined experimentally, perhaps it can be more precise).
const intermediatePaths = new Set<string>();
for (const target of [command, realPath]) {
const parts = path.dirname(target).split(path.sep);
for (let i = 1; i < parts.length; i++) {
const p = path.join('/', ...parts.slice(0, i));
intermediatePaths.add(p);
}
}
for (const p of intermediatePaths) {
profile.push(`(allow file-read* (literal ${JSON.stringify(p)}))`);
}
// Grant read access to everything within an enclosing bin directory of original command.
if (path.dirname(command).split(path.sep).pop() === 'bin') {
const p = path.join(path.dirname(command), '..');
profile.push(`(allow file-read* (subpath ${JSON.stringify(p)}))`);
}
// Grant read+execute access to everything within an enclosing bin directory of final target.
if (path.dirname(realPath).split(path.sep).pop() === 'bin') {
const p = path.join(path.dirname(realPath), '..');
profile.push(`(allow file-read* (subpath ${JSON.stringify(p)}))`);
profile.push(`(allow process-exec (subpath ${JSON.stringify(p)}))`);
}
// Sundry extra permissions that proved necessary. These work at the time of writing for
// python versions installed by brew. Other arrangements could need tweaking.
profile.push(`(allow file-read* (subpath "/usr/local/"))`);
profile.push('(allow sysctl-read)'); // needed for os.uname()
// From another python installation variant.
profile.push(`(allow file-read* (subpath "/usr/lib/"))`);
profile.push(`(allow file-read* (subpath "/System/Library/Frameworks/"))`);
profile.push(`(allow file-read* (subpath "/Library/Apple/usr/libexec/oah/"))`);
// Give access to Grist material.
const cwd = path.join(process.cwd(), 'sandbox');
profile.push(`(allow file-read* (subpath ${JSON.stringify(paths.sandboxDir)}))`);
profile.push(`(allow file-read* (subpath ${JSON.stringify(cwd)}))`);
if (options.importDir) {
profile.push(`(allow file-read* (subpath ${JSON.stringify(paths.importDir)}))`);
}
const profileString = profile.join('\n');
const child = spawn('/usr/bin/sandbox-exec', ['-p', profileString, command, ...pythonArgs],
{cwd, env});
return {child, control: new DirectProcessControl(child, options.logMeta)};
}
/**
* Collect environment variables that should end up set within the sandbox.
*/
export function getInsertedEnv(options: ISandboxOptions) {
const env: NodeJS.ProcessEnv = {
// use stdin/stdout/stderr only.
PIPE_MODE: options.minimalPipeMode ? 'minimal' : 'classic',
};
if (options.deterministicMode) {
// Making time and randomness act deterministically for testing purposes.
// See test/utils/recordPyCalls.ts
// tells python to seed the random module
env.DETERMINISTIC_MODE = '1';
}
return env;
}
/**
* Collect environment variables to activate faketime if needed. The paths
* here only make sense for unsandboxed operation, or for pynbox. For gvisor,
* faketime doesn't work, and must be done inside the sandbox. For docker,
* likewise wrapping doesn't make sense. In those cases, LIBFAKETIME_PATH can
* just be set to ON to activate faketime in a sandbox dependent manner.
*/
function getWrappingEnv(options: ISandboxOptions) {
const env: NodeJS.ProcessEnv = options.deterministicMode ? {
// Making time and randomness act deterministically for testing purposes.
// See test/utils/recordPyCalls.ts
FAKETIME, // setting for libfaketime
// For Linux
LD_PRELOAD: process.env.LIBFAKETIME_PATH,
// For Mac (https://github.com/wolfcw/libfaketime/blob/master/README.OSX)
DYLD_INSERT_LIBRARIES: process.env.LIBFAKETIME_PATH,
DYLD_FORCE_FLAT_NAMESPACE: '1',
} : {};
return env;
}
/**
* Extract absolute paths from options. By sticking with the directory
* structure on the host rather than remapping, we can simplify nesting
* wrappers, or cases where remapping isn't possible. It does leak the names
* of the host directories though, and there could be silly complications if the
* directories have spaces or other idiosyncrasies. When committing to a sandbox
* technology, for stand-alone Grist, it would be worth rethinking this.
*/
function getAbsolutePaths(options: ISandboxOptions) {
// Get path to sandbox directory - this is a little idiosyncratic to work well
// in grist-core. It is important to use real paths since we may be viewing
// the file system through a narrow window in a container.
const sandboxDir = path.join(realpathSync(path.join(process.cwd(), 'sandbox', 'grist')),
'..');
// Copy plugin options, and then make them absolute.
if (options.importDir) {
options.importDir = realpathSync(options.importDir);
}
return {
sandboxDir,
importDir: options.importDir,
main: path.join(sandboxDir, 'grist/main.py'),
engine: path.join(sandboxDir, 'grist'),
};
}
/**
* A tiny abstraction to make code setting up command line arguments a bit
* easier to read. The sandboxes are quite similar in spirit, but differ
* a bit in exact flags used.
*/
class FlagBag {
private _args: string[] = [];
constructor(private _options: {env: '--env'|'-E', mount: '-m'|'-v'}) {
}
// channel env variables for sandbox via -E / --env
public addEnv(key: string, value: string|undefined) {
this._args.push(this._options.env, key + '=' + (value || ''));
}
// Channel all of the supplied env variables
public addAllEnv(env: NodeJS.ProcessEnv) {
for (const [key, value] of _.toPairs(env)) {
this.addEnv(key, value);
}
}
// channel shared directory for sandbox via -m / -v
public addMount(share: string) {
this._args.push(this._options.mount, share);
}
// add some ad-hoc arguments
public push(...args: string[]) {
this._args.push(...args);
}
// get the final list of arguments
public get() { return this._args; }
}
// Standard time to default to if faking time.
const FAKETIME = '2020-01-01 00:00:00';
/**
* Find a plausible version of python to run, if none provided.
* The preferred version is only used if command is not specified.
*/
function findPython(command: string|undefined, preferredVersion?: string): string {
if (command) { return command; }
// No command specified. In this case, grist-core looks for a "venv"
// virtualenv; a python3 virtualenv would be in "sandbox_venv3".
// TODO: rationalize this, it is a product of haphazard growth.
const prefs = preferredVersion === '2' ? ['venv', 'sandbox_venv3'] : ['sandbox_venv3', 'venv'];
for (const venv of prefs) {
const base = getUnpackedAppRoot();
// Try a battery of possible python executable paths when python is installed
// in a standalone directory.
// This battery of possibilities comes from Electron packaging, where python
// is bundled with Grist. Not all the possibilities are needed (there are
// multiple popular python bundles per OS).
for (const possiblePath of [['bin', 'python'], ['bin', 'python3'],
['Scripts', 'python.exe'], ['python.exe']] as const) {
const pythonPath = path.join(base, venv, ...possiblePath);
if (fs.existsSync(pythonPath)) {
return pythonPath;
}
}
}
// Fall back on system python.
const systemPrefs = preferredVersion === '2' ? ['2.7', '2', ''] : ['3.11', '3.10', '3.9', '3', ''];
for (const version of systemPrefs) {
const pythonPath = which.sync(`python${version}`, {nothrow: true});
if (pythonPath) {
return pythonPath;
}
}
throw new Error('Cannot find Python');
}
/**
* Create a sandbox. The defaultFlavorSpec is a guide to which sandbox
* to create, based on the desired python version. Examples:
* unsandboxed # no sandboxing
* 2:pynbox,gvisor # run python2 in pynbox, anything else in gvisor
* 3:macSandboxExec,docker # run python3 with sandbox-exec, anything else in docker
* If no particular python version is desired, the first sandbox listed will be used.
* The defaultFlavorSpec can be overridden by GRIST_SANDBOX_FLAVOR.
* The commands run can be overridden by GRIST_SANDBOX2 (for python2), GRIST_SANDBOX3 (for python3),
* or GRIST_SANDBOX (for either, if more specific variable is not specified).
* For documents with no preferred python version specified,
* PYTHON_VERSION_ON_CREATION or PYTHON_VERSION is used.
*/
export function createSandbox(defaultFlavorSpec: string, options: ISandboxCreationOptions): ISandbox {
const flavors = (process.env.GRIST_SANDBOX_FLAVOR || defaultFlavorSpec).split(',');
const preferredPythonVersion = options.preferredPythonVersion ||
process.env.PYTHON_VERSION_ON_CREATION ||
process.env.PYTHON_VERSION;
for (const flavorAndVersion of flavors) {
const parts = flavorAndVersion.trim().split(':', 2);
const flavor = parts[parts.length - 1];
const version = parts.length === 2 ? parts[0] : '*';
if (preferredPythonVersion === version || version === '*' || !preferredPythonVersion) {
const creator = new NSandboxCreator({
defaultFlavor: flavor,
command: process.env['GRIST_SANDBOX' + (preferredPythonVersion||'')] ||
process.env['GRIST_SANDBOX'],
preferredPythonVersion,
});
return creator.create(options);
}
}
throw new Error('Failed to create a sandbox');
}
/**
* The realpath function may not be available, just return the
* path unchanged if it is not. Specifically, this happens when
* compiled for use in a browser environment.
*/
function realpathSync(src: string) {
try {
return fs.realpathSync(src);
} catch (e) {
return src;
}
}