gristlabs_grist-core/app/server/lib/NSandbox.ts
Paul Fitzpatrick 0c5f7cf0a7 (core) add SELF_HYPERLINK() function for generating links to the current document
Summary:
 * Adds a `SELF_HYPERLINK()` python function, with optional keyword arguments to set a label, the page, and link parameters.
 * Adds a `UUID()` python function, since using python's uuid.uuidv4 hits a problem accessing /dev/urandom in the sandbox.  UUID makes no particular quality claims since it doesn't use an audited implementation.  A difficult to guess code is convenient for some use cases that `SELF_HYPERLINK()` enables.

The canonical URL for a document is mutable, but older versions generally forward.  So for implementation simplicity the document url is passed it on sandbox creation and remains fixed throughout the lifetime of the sandbox.  This could and should be improved in future.

The URL is passed into the sandbox as a `DOC_URL` environment variable.

The code for creating the URL is factored out of `Notifier.ts`. Since the url is a function of the organization as well as the document, some rejiggering is needed to make that information available to DocManager.

On document imports, the new document is registered in the database slightly earlier now, in order to keep the procedure for constructing the URL in different starting conditions more homogeneous.

Test Plan: updated test

Reviewers: dsagal

Reviewed By: dsagal

Differential Revision: https://phab.getgrist.com/D2759
2021-03-18 19:37:07 -04:00

370 lines
14 KiB
TypeScript

/**
* JS controller for the pypy sandbox.
*/
import * as pidusage from '@gristlabs/pidusage';
import * as marshal from 'app/common/marshal';
import {ISandbox, ISandboxCreationOptions, ISandboxCreator} from 'app/server/lib/ISandbox';
import * as log from 'app/server/lib/log';
import * as sandboxUtil from 'app/server/lib/sandboxUtil';
import * as shutdown from 'app/server/lib/shutdown';
import {Throttle} from 'app/server/lib/Throttle';
import {ChildProcess, spawn, SpawnOptions} from 'child_process';
import * as path from 'path';
import {Stream, Writable} from 'stream';
type SandboxMethod = (...args: any[]) => any;
export interface ISandboxCommand {
process: string;
libraryPath: string;
docUrl: string;
}
export interface ISandboxOptions {
args: string[]; // The arguments to pass to the python process.
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.
selLdrArgs?: string[]; // Arguments passed to selLdr, for instance the following sets an
// environment variable `{ ... selLdrArgs: ['-E', 'PYTHONPATH=grist'] ... }`.
logMeta?: log.ILogMeta; // Log metadata (e.g. including docId) to report in all log messages.
command?: ISandboxCommand;
}
// Options for low-level spawning of selLdr sandbox process.
export interface ISpawnOptions extends SpawnOptions {
unsilenceLog?: boolean; // Don't silence the sel_ldr logging.
command?: ISandboxCommand;
}
type ResolveRejectPair = [(value?: any) => void, (reason?: unknown) => void];
// Type for basic message identifiers, available as constants in sandboxUtil.
type MsgCode = null | true | false;
export class NSandbox implements ISandbox {
/**
* Helper function to run the 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.
* @param selLdrArgs: Arguments to pass to sel_ldr;
* @param pythonArgs: Arguments to pass to python within the sandbox.
* @param spawnOptions: extra options for child_process.spawn(), such as 'stdio'.
*/
public static spawn(selLdrArgs: string[], pythonArgs: string[], spawnOptions: ISpawnOptions = {}): ChildProcess {
const unsilenceLog = spawnOptions.unsilenceLog;
delete spawnOptions.unsilenceLog;
const command = spawnOptions.command;
delete spawnOptions.command;
if (command) {
return spawn(command.process, pythonArgs,
{env: {PYTHONPATH: command.libraryPath, DOC_URL: command.docUrl},
cwd: path.join(process.cwd(), 'sandbox'), ...spawnOptions});
}
const noLog = unsilenceLog ? [] :
(process.env.OS === 'Windows_NT' ? ['-l', 'NUL'] : ['-l', '/dev/null']);
return spawn('sandbox/nacl/bin/sel_ldr', [
'-B', './sandbox/nacl/lib/irt_core.nexe', '-m', './sandbox/nacl/root:/:ro',
...noLog,
...selLdrArgs,
'./sandbox/nacl/lib/runnable-ld.so',
'--library-path', '/slib', '/python/bin/python2.7.nexe',
...pythonArgs
],
{env: {}, ...spawnOptions},
);
}
public readonly childProc: ChildProcess;
private _logTimes: boolean;
private _exportedFunctions: {[name: string]: SandboxMethod};
private _marshaller = new marshal.Marshaller({stringToBuffer: true, 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 _throttle: Throttle | undefined;
/*
* 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.
*/
constructor(options: ISandboxOptions) {
this._logTimes = Boolean(options.logTimes || options.logCalls);
this._exportedFunctions = options.exports || {};
const selLdrArgs = options.selLdrArgs || [];
// 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`
this.childProc = NSandbox.spawn(['-r', '3:3', '-w', '4:4', ...selLdrArgs], options.args, {
stdio: ['pipe', 'pipe', 'pipe', 'pipe', 'pipe'],
unsilenceLog: options.unsilenceLog,
command: options.command
});
this._logMeta = {sandboxPid: this.childProc.pid, ...options.logMeta};
log.rawDebug("Sandbox started", this._logMeta);
this._streamToSandbox = (this.childProc.stdio as Stream[])[3] as Writable;
this._streamFromSandbox = (this.childProc.stdio as Stream[])[4];
this.childProc.on('close', this._onExit.bind(this));
this.childProc.on('error', this._onError.bind(this));
this.childProc.stdout.on('data', sandboxUtil.makeLinePrefixer('Sandbox stdout: ', this._logMeta));
this.childProc.stderr.on('data', sandboxUtil.makeLinePrefixer('Sandbox stderr: ', this._logMeta));
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);
}
});
// On shutdown, shutdown the child process cleanly, and wait for it to exit.
shutdown.addCleanupHandler(this, this.shutdown);
if (process.env.GRIST_THROTTLE_CPU) {
this._throttle = new Throttle({
pid: this.childProc.pid,
logMeta: this._logMeta,
});
}
}
/**
* 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(() => {
log.rawWarn("Sandbox sending SIGKILL", this._logMeta);
this.childProc.kill('SIGKILL');
}, 1000);
const result = await new Promise((resolve, reject) => {
if (this._isWriteClosed) { resolve(); }
this.childProc.on('error', reject);
this.childProc.on('close', resolve);
this._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 pyCall(funcName: string, ...varArgs: unknown[]): Promise<any> {
const startTime = Date.now();
this._sendData(sandboxUtil.CALL, Array.from(arguments));
return this._pyCallWait(funcName, startTime);
}
/**
* Returns the RSS (resident set size) of the sandbox process, in bytes.
*/
public async reportMemoryUsage() {
const memory = (await pidusage(this.childProc.pid)).memory;
log.rawDebug('Sandbox memory', {memory, ...this._logMeta});
}
private async _pyCallWait(funcName: string, startTime: number): Promise<any> {
try {
return await new Promise((resolve, reject) => {
this._pendingReads.push([resolve, reject]);
});
} finally {
if (this._logTimes) {
log.rawDebug(`Sandbox pyCall[${funcName}] took ${Date.now() - startTime} ms`, this._logMeta);
}
}
}
private _close() {
if (this._throttle) { this._throttle.stop(); }
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) {
this._close();
log.rawDebug(`Sandbox 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 new sandboxUtil.SandboxError("PipeToSandbox is closed");
}
this._marshaller.marshal(msgCode);
this._marshaller.marshal(data);
return this._streamToSandbox.write(this._marshaller.dumpAsBuffer());
}
/**
* 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 });
this._onSandboxMsg(value[0], value[1]);
});
}
/**
* Process the closing of the pipe by the sandboxed process.
*/
private _onSandboxClose() {
if (this._throttle) { this._throttle.stop(); }
this._isReadClosed = true;
// Clear out all reads pending on PipeFromSandbox, rejecting them with the given error.
const err = new sandboxUtil.SandboxError("PipeFromSandbox is closed");
this._pendingReads.forEach(resolvePair => resolvePair[1](err));
this._pendingReads = [];
}
/**
* 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: ${err}`, this._logMeta);
});
}
} else {
// Handle return values for calls made to the sandbox.
const resolvePair = this._pendingReads.shift();
if (resolvePair) {
if (msgCode === sandboxUtil.EXC) {
resolvePair[1](new sandboxUtil.SandboxError(data));
} else if (msgCode === sandboxUtil.DATA) {
resolvePair[0](data);
} else {
log.rawWarn("Sandbox invalid message from sandbox", this._logMeta);
}
}
}
}
}
export class NSandboxCreator implements ISandboxCreator {
public constructor(private _flavor: 'pynbox' | 'unsandboxed') {
}
public create(options: ISandboxCreationOptions): ISandbox {
// Main script to run.
const defaultEntryPoint = this._flavor === 'pynbox' ? 'grist/main.pyc' : 'grist/main.py';
// Python library path is only configurable when flavor is unsandboxed.
// In this case, expect to find library files in a virtualenv built by core
// buildtools/prepare_python.sh
const pythonVersion = 'python2.7';
const libraryPath = `grist:../venv/lib/${pythonVersion}/site-packages`;
const args = [options.entryPoint || defaultEntryPoint];
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 selLdrArgs: string[] = [];
if (options.sandboxMount) {
selLdrArgs.push(
// TODO: Only modules that we share with plugins should be mounted. They could be gathered in
// a "$APPROOT/sandbox/plugin" folder, only which get mounted.
// TODO: These settings only make sense for pynbox flavor.
'-E', 'PYTHONPATH=grist:thirdparty',
'-m', `${options.sandboxMount}:/sandbox:ro`);
}
if (options.importMount) {
selLdrArgs.push('-m', `${options.importMount}:/importdir:ro`);
}
const docUrl = (options.docUrl || '').replace(/[^-a-zA-Z0-9_:/?&.]/, '');
if (this._flavor === 'pynbox') {
selLdrArgs.push('-E', `DOC_URL=${docUrl}`);
}
return new NSandbox({
args,
logCalls: options.logCalls,
logMeta: options.logMeta,
logTimes: options.logTimes,
selLdrArgs,
...(this._flavor === 'pynbox' ? {} : {
command: {
process: pythonVersion,
libraryPath,
docUrl,
}
})
});
}
}