clsi/app/js/DockerRunner.js

/* eslint-disable
    camelcase,
    handle-callback-err,
    no-return-assign,
    no-unused-vars,
*/
// TODO: This file was created by bulk-decaffeinate.
// Fix any style issues and re-enable lint.
/*
 * decaffeinate suggestions:
 * DS101: Remove unnecessary use of Array.from
 * DS102: Remove unnecessary code created because of implicit returns
 * DS103: Rewrite code to no longer use __guard__
 * DS205: Consider reworking code to avoid use of IIFEs
 * DS207: Consider shorter variations of null checks
 * Full docs: https://github.com/decaffeinate/decaffeinate/blob/master/docs/suggestions.md
 */
let DockerRunner, oneHour;
const Settings = require("settings-sharelatex");
const logger = require("logger-sharelatex");
const Docker = require("dockerode");
const dockerode = new Docker();
const crypto = require("crypto");
const async = require("async");
const LockManager = require("./DockerLockManager");
const fs = require("fs");
const Path = require('path');
const _ = require("underscore");

logger.info("using docker runner");

const usingSiblingContainers = () => __guard__(Settings != null ? Settings.path : undefined, x => x.sandboxedCompilesHostDir) != null;

module.exports = (DockerRunner = {
	ERR_NOT_DIRECTORY: new Error("not a directory"),
	ERR_TERMINATED: new Error("terminated"),
	ERR_EXITED: new Error("exited"),
	ERR_TIMED_OUT: new Error("container timed out"),

	run(project_id, command, directory, image, timeout, environment, callback) {

		let name;
		if (callback == null) { callback = function(error, output) {}; }
		if (usingSiblingContainers()) {
			const _newPath = Settings.path.sandboxedCompilesHostDir;
			logger.log({path: _newPath}, "altering bind path for sibling containers");
			// Server Pro, example:
			//   '/var/lib/sharelatex/data/compiles/<project-id>'
			//   ... becomes ...
			//   '/opt/sharelatex_data/data/compiles/<project-id>'
			directory = Path.join(Settings.path.sandboxedCompilesHostDir, Path.basename(directory));
		}

		const volumes = {};
		volumes[directory] = "/compile";

		command = (Array.from(command).map((arg) => __guardMethod__(arg.toString(), 'replace', o => o.replace('$COMPILE_DIR', "/compile"))));
		if ((image == null)) {
			({ image } = Settings.clsi.docker);
		}

		if (Settings.texliveImageNameOveride != null) {
			const img = image.split("/");
			image = `${Settings.texliveImageNameOveride}/${img[2]}`;
		}

		const options      = DockerRunner._getContainerOptions(command, image, volumes, timeout, environment);
		const fingerprint  = DockerRunner._fingerprintContainer(options);
		options.name = (name = `project-${project_id}-${fingerprint}`);

		// logOptions = _.clone(options)
		// logOptions?.HostConfig?.SecurityOpt = "secomp used, removed in logging"
		logger.log({project_id}, "running docker container");
		DockerRunner._runAndWaitForContainer(options, volumes, timeout, function(error, output) {
			if (__guard__(error != null ? error.message : undefined, x => x.match("HTTP code is 500"))) {
				logger.log({err: error, project_id}, "error running container so destroying and retrying");
				return DockerRunner.destroyContainer(name, null, true, function(error) {
					if (error != null) { return callback(error); }
					return DockerRunner._runAndWaitForContainer(options, volumes, timeout, callback);
				});
			} else {
				return callback(error, output);
			}
		});

		return name;
	}, // pass back the container name to allow it to be killed

	kill(container_id, callback) {
		if (callback == null) { callback = function(error) {}; }
		logger.log({container_id}, "sending kill signal to container");
		const container = dockerode.getContainer(container_id);
		return container.kill(function(error) {
			if ((error != null) && __guardMethod__(error != null ? error.message : undefined, 'match', o => o.match(/Cannot kill container .* is not running/))) {
				logger.warn({err: error, container_id}, "container not running, continuing");
				error = null;
			}
			if (error != null) {
				logger.error({err: error, container_id}, "error killing container");
				return callback(error);
			} else {
				return callback();
			}
		});
	},

	_runAndWaitForContainer(options, volumes, timeout, _callback) {
		if (_callback == null) { _callback = function(error, output) {}; }
		const callback = function(...args) {
			_callback(...Array.from(args || []));
			// Only call the callback once
			return _callback = function() {};
		};

		const { name } = options;

		let streamEnded = false;
		let containerReturned = false;
		let output = {};

		const callbackIfFinished = function() {
			if (streamEnded && containerReturned) {
				return callback(null, output);
			}
		};

		const attachStreamHandler = function(error, _output) {
			if (error != null) { return callback(error); }
			output = _output;
			streamEnded = true;
			return callbackIfFinished();
		};

		return DockerRunner.startContainer(options, volumes, attachStreamHandler, function(error, containerId) {
			if (error != null) { return callback(error); }
			
			return DockerRunner.waitForContainer(name, timeout, function(error, exitCode) {
				let err;
				if (error != null) { return callback(error); }
				if (exitCode === 137) {  // exit status from kill -9
					err = DockerRunner.ERR_TERMINATED;
					err.terminated = true;
					return callback(err);
				}
				if (exitCode === 1) { // exit status from chktex
					err = DockerRunner.ERR_EXITED;
					err.code = exitCode;
					return callback(err);
				}
				containerReturned = true;
				__guard__(options != null ? options.HostConfig : undefined, x => x.SecurityOpt = null); // small log line
				logger.log({err, exitCode, options}, "docker container has exited");
				return callbackIfFinished();
			});
		});
	},

	_getContainerOptions(command, image, volumes, timeout, environment) {
		let m, year;
		let key, value, hostVol, dockerVol;
		const timeoutInSeconds = timeout / 1000;

		const dockerVolumes = {};
		for (hostVol in volumes) {
			dockerVol = volumes[hostVol];
			dockerVolumes[dockerVol] = {};

			if (volumes[hostVol].slice(-3).indexOf(":r") === -1) {
				volumes[hostVol] = `${dockerVol}:rw`;
			}
		}

		// merge settings and environment parameter
		const env = {};
		for (const src of [Settings.clsi.docker.env, environment || {}]) {
			for (key in src) { value = src[key]; env[key] = value; }
		}
		// set the path based on the image year
		if ((m = image.match(/:([0-9]+)\.[0-9]+/))) {
			year = m[1];
		} else {
			year = "2014";
		}
		env.PATH = `/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/local/texlive/${year}/bin/x86_64-linux/`;
		const options = {
			"Cmd"             : command,
			"Image"           : image,
			"Volumes"         : dockerVolumes,
			"WorkingDir"      : "/compile",
			"NetworkDisabled" : true,
			"Memory"          : 1024 * 1024 * 1024 * 1024, // 1 Gb
			"User"            : Settings.clsi.docker.user,
			"Env"             : (((() => {
				const result = [];
				for (key in env) {
					value = env[key];
					result.push(`${key}=${value}`);
				}
				return result;
			})())),	// convert the environment hash to an array
			"HostConfig"      : {
				"Binds": (((() => {
					const result1 = [];
					for (hostVol in volumes) {
						dockerVol = volumes[hostVol];
						result1.push(`${hostVol}:${dockerVol}`);
					}
					return result1;
				})())),
				"LogConfig": {"Type": "none", "Config": {}},
				"Ulimits": [{'Name': 'cpu', 'Soft': timeoutInSeconds+5, 'Hard': timeoutInSeconds+10}],
				"CapDrop": "ALL",
				"SecurityOpt": ["no-new-privileges"]
			}
		};


		if ((Settings.path != null ? Settings.path.synctexBinHostPath : undefined) != null) {
			options.HostConfig.Binds.push(`${Settings.path.synctexBinHostPath}:/opt/synctex:ro`);
		}

		if (Settings.clsi.docker.seccomp_profile != null) {
			options.HostConfig.SecurityOpt.push(`seccomp=${Settings.clsi.docker.seccomp_profile}`);
		}

		return options;
	},

	_fingerprintContainer(containerOptions) {
		// Yay, Hashing!
		const json = JSON.stringify(containerOptions);
		return crypto.createHash("md5").update(json).digest("hex");
	},

	startContainer(options, volumes, attachStreamHandler, callback) {
		return LockManager.runWithLock(options.name, releaseLock =>
			// Check that volumes exist before starting the container.
			// When a container is started with volume pointing to a
			// non-existent directory then docker creates the directory but
			// with root ownership.
			DockerRunner._checkVolumes(options, volumes, function(err) {
				if (err != null) { return releaseLock(err); }
				return DockerRunner._startContainer(options, volumes, attachStreamHandler, releaseLock);
			})
		
		, callback);
	},

	// Check that volumes exist and are directories
	_checkVolumes(options, volumes, callback) {
		if (callback == null) { callback = function(error, containerName) {}; }
		if (usingSiblingContainers()) {
			// Server Pro, with sibling-containers active, skip checks
			return callback(null);
		}

		const checkVolume = (path, cb) =>
			fs.stat(path, function(err, stats) {
				if (err != null) { return cb(err); }
				if (!(stats != null ? stats.isDirectory() : undefined)) { return cb(DockerRunner.ERR_NOT_DIRECTORY); }
				return cb();
			})
		;
		const jobs = [];
		for (const vol in volumes) {
			(vol => jobs.push(cb => checkVolume(vol, cb)))(vol);
		}
		return async.series(jobs, callback);
	},

	_startContainer(options, volumes, attachStreamHandler, callback) {
		if (callback == null) { callback = function(error, output) {}; }
		callback = _.once(callback);
		const { name } = options;

		logger.log({container_name: name}, "starting container");
		const container = dockerode.getContainer(name);

		const createAndStartContainer = () =>
			dockerode.createContainer(options, function(error, container) {
				if (error != null) { return callback(error); }
				return startExistingContainer();
			})
		;

		var startExistingContainer = () =>
			DockerRunner.attachToContainer(options.name, attachStreamHandler, function(error){
				if (error != null) { return callback(error); }
				return container.start(function(error) {
					if ((error != null) && ((error != null ? error.statusCode : undefined) !== 304)) { // already running
						return callback(error);
					} else {
						return callback();
					}
				});
			})
		;

		return container.inspect(function(error, stats){
			if ((error != null ? error.statusCode : undefined) === 404) {
				return createAndStartContainer();
			} else if (error != null) {
				logger.err({container_name: name, error}, "unable to inspect container to start");
				return callback(error);
			} else {
				return startExistingContainer();
			}
		});
	},


	attachToContainer(containerId, attachStreamHandler, attachStartCallback) {
		const container = dockerode.getContainer(containerId);
		return container.attach({stdout: 1, stderr: 1, stream: 1}, function(error, stream) {
			if (error != null) {
				logger.error({err: error, container_id: containerId}, "error attaching to container");
				return attachStartCallback(error);
			} else {
				attachStartCallback();
			}


			logger.log({container_id: containerId}, "attached to container");

			const MAX_OUTPUT = 1024 * 1024; // limit output to 1MB
			const createStringOutputStream = function(name) {
				return {
					data: "",
					overflowed: false,
					write(data) {
						if (this.overflowed) { return; }
						if (this.data.length < MAX_OUTPUT) {
							return this.data += data;
						} else {
							logger.error({container_id: containerId, length: this.data.length, maxLen: MAX_OUTPUT}, `${name} exceeds max size`);
							this.data += `(...truncated at ${MAX_OUTPUT} chars...)`;
							return this.overflowed = true;
						}
					}
							// kill container if too much output
							// docker.containers.kill(containerId, () ->)
				};
			};

			const stdout = createStringOutputStream("stdout");
			const stderr = createStringOutputStream("stderr");

			container.modem.demuxStream(stream, stdout, stderr);

			stream.on("error", err => logger.error({err, container_id: containerId}, "error reading from container stream"));

			return stream.on("end", () => attachStreamHandler(null, {stdout: stdout.data, stderr: stderr.data}));
	});
	},

	waitForContainer(containerId, timeout, _callback) {
		if (_callback == null) { _callback = function(error, exitCode) {}; }
		const callback = function(...args) {
			_callback(...Array.from(args || []));
			// Only call the callback once
			return _callback = function() {};
		};

		const container = dockerode.getContainer(containerId);

		let timedOut = false;
		const timeoutId = setTimeout(function() {
			timedOut = true;
			logger.log({container_id: containerId}, "timeout reached, killing container");
			return container.kill(function() {});
		}
		, timeout);

		logger.log({container_id: containerId}, "waiting for docker container");
		return container.wait(function(error, res) {
			if (error != null) {
				clearTimeout(timeoutId);
				logger.error({err: error, container_id: containerId}, "error waiting for container");
				return callback(error);
			}
			if (timedOut) {
				logger.log({containerId}, "docker container timed out");
				error = DockerRunner.ERR_TIMED_OUT;
				error.timedout = true;
				return callback(error);
			} else {
				clearTimeout(timeoutId);
				logger.log({container_id: containerId, exitCode: res.StatusCode}, "docker container returned");
				return callback(null, res.StatusCode);
			}
		});
	},

	destroyContainer(containerName, containerId, shouldForce, callback) {
		// We want the containerName for the lock and, ideally, the
		// containerId to delete.  There is a bug in the docker.io module
		// where if you delete by name and there is an error, it throws an
		// async exception, but if you delete by id it just does a normal
		// error callback. We fall back to deleting by name if no id is
		// supplied.
		if (callback == null) { callback = function(error) {}; }
		return LockManager.runWithLock(containerName, releaseLock => DockerRunner._destroyContainer(containerId || containerName, shouldForce, releaseLock)
		, callback);
	},

	_destroyContainer(containerId, shouldForce, callback) {
		if (callback == null) { callback = function(error) {}; }
		logger.log({container_id: containerId}, "destroying docker container");
		const container = dockerode.getContainer(containerId);
		return container.remove({force: shouldForce === true}, function(error) {
			if ((error != null) && ((error != null ? error.statusCode : undefined) === 404)) {
				logger.warn({err: error, container_id: containerId}, "container not found, continuing");
				error = null;
			}
			if (error != null) {
				logger.error({err: error, container_id: containerId}, "error destroying container");
			} else {
				logger.log({container_id: containerId}, "destroyed container");
			}
			return callback(error);
		});
	},

	// handle expiry of docker containers

	MAX_CONTAINER_AGE: Settings.clsi.docker.maxContainerAge || (oneHour = 60 * 60 * 1000),

	examineOldContainer(container, callback) {
		if (callback == null) { callback = function(error, name, id, ttl){}; }
		const name = container.Name || (container.Names != null ? container.Names[0] : undefined);
		const created = container.Created * 1000; // creation time is returned in seconds
		const now = Date.now();
		const age = now - created;
		const maxAge = DockerRunner.MAX_CONTAINER_AGE;
		const ttl = maxAge - age;
		logger.log({containerName: name, created, now, age, maxAge, ttl}, "checking whether to destroy container");
		return callback(null, name, container.Id, ttl);
	},

	destroyOldContainers(callback) {
		if (callback == null) { callback = function(error) {}; }
		return dockerode.listContainers({all: true}, function(error, containers) {
			if (error != null) { return callback(error); }
			const jobs = [];
			for (const container of Array.from(containers || [])) {
				(container =>
					DockerRunner.examineOldContainer(container, function(err, name, id, ttl) {
						if ((name.slice(0, 9) === '/project-') && (ttl <= 0)) {
							return jobs.push(cb => DockerRunner.destroyContainer(name, id, false, () => cb()));
						}
					})
				)(container);
			}
								// Ignore errors because some containers get stuck but
								// will be destroyed next time
			return async.series(jobs, callback);
		});
	},

	startContainerMonitor() {
		logger.log({maxAge: DockerRunner.MAX_CONTAINER_AGE}, "starting container expiry");
		// randomise the start time
		const randomDelay = Math.floor(Math.random() * 5 * 60 * 1000);
		return setTimeout(() =>
			setInterval(() => DockerRunner.destroyOldContainers()
			, (oneHour = 60 * 60 * 1000))
		
		, randomDelay);
	}
});

DockerRunner.startContainerMonitor();

function __guard__(value, transform) {
  return (typeof value !== 'undefined' && value !== null) ? transform(value) : undefined;
}
function __guardMethod__(obj, methodName, transform) {
  if (typeof obj !== 'undefined' && obj !== null && typeof obj[methodName] === 'function') {
    return transform(obj, methodName);
  } else {
    return undefined;
  }
}