balena-cli/lib/utils/device/live.ts
2020-12-09 20:43:14 +00:00

576 lines
17 KiB
TypeScript

/**
* @license
* Copyright 2019-2020 Balena Ltd.
*
* 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 * as chokidar from 'chokidar';
import type * as Dockerode from 'dockerode';
import * as fs from 'fs';
import Livepush, { ContainerNotRunningError } from 'livepush';
import * as _ from 'lodash';
import * as path from 'path';
import type { Composition } from 'resin-compose-parse';
import type { BuildTask } from 'resin-multibuild';
import { instanceOf } from '../../errors';
import Logger = require('../logger');
import { Dockerfile } from 'livepush';
import type DeviceAPI from './api';
import type { DeviceInfo, Status } from './api';
import {
DeviceDeployOptions,
generateTargetState,
rebuildSingleTask,
} from './deploy';
import { BuildError } from './errors';
import { getServiceColourFn } from './logs';
import { delay } from '../helpers';
// How often do we want to check the device state
// engine has settled (delay in ms)
const DEVICE_STATUS_SETTLE_CHECK_INTERVAL = 1000;
const LIVEPUSH_DEBOUNCE_TIMEOUT = 2000;
interface MonitoredContainer {
context: string;
livepush: Livepush;
monitor: chokidar.FSWatcher;
containerId: string;
}
type BuildLogs = Dictionary<string>;
type StageImageIDs = Dictionary<string[]>;
export interface LivepushOpts {
buildContext: string;
composition: Composition;
buildTasks: BuildTask[];
docker: Dockerode;
api: DeviceAPI;
logger: Logger;
buildLogs: BuildLogs;
deployOpts: DeviceDeployOptions;
}
export class LivepushManager {
private lastDeviceStatus: Status | null = null;
private containers: Dictionary<MonitoredContainer> = {};
private dockerfilePaths: Dictionary<string[]> = {};
private deviceInfo: DeviceInfo;
private deployOpts: DeviceDeployOptions;
private buildContext: string;
private composition: Composition;
private buildTasks: BuildTask[];
private docker: Dockerode;
private api: DeviceAPI;
private logger: Logger;
private imageIds: StageImageIDs;
// A map of service names to events waiting
private updateEventsWaiting: Dictionary<string[]> = {};
private deleteEventsWaiting: Dictionary<string[]> = {};
private rebuildsRunning: Dictionary<boolean> = {};
private rebuildRunningIds: Dictionary<string> = {};
private rebuildsCancelled: Dictionary<boolean> = {};
public constructor(opts: LivepushOpts) {
this.buildContext = opts.buildContext;
this.composition = opts.composition;
this.buildTasks = opts.buildTasks;
this.docker = opts.docker;
this.api = opts.api;
this.logger = opts.logger;
this.deployOpts = opts.deployOpts;
this.imageIds = LivepushManager.getMultistageImageIDs(opts.buildLogs);
}
public async init(): Promise<void> {
this.deviceInfo = await this.api.getDeviceInformation();
this.logger.logLivepush('Waiting for device state to settle...');
// The first thing we need to do is let the state 'settle',
// so that all of the containers are running and ready to
// be livepush'd into
await this.awaitDeviceStateSettle();
// Split the composition into a load of differents paths
// which we can
this.logger.logLivepush('Device state settled');
// Prepare dockerignore data for file watcher
const { getDockerignoreByService } = await import('../ignore');
const { getServiceDirsFromComposition } = await import('../compose_ts');
const rootContext = path.resolve(this.buildContext);
const serviceDirsByService = await getServiceDirsFromComposition(
this.deployOpts.source,
this.composition,
);
const dockerignoreByService = await getDockerignoreByService(
this.deployOpts.source,
this.deployOpts.multiDockerignore,
serviceDirsByService,
);
// create livepush instances for each service
for (const serviceName of _.keys(this.composition.services)) {
const service = this.composition.services[serviceName];
const buildTask = _.find(this.buildTasks, { serviceName });
if (buildTask == null) {
throw new Error(
`Could not find a build task for service: ${serviceName}`,
);
}
// We only care about builds
if (service.build != null) {
if (buildTask.dockerfile == null) {
throw new Error(
`Could not detect dockerfile for service: ${serviceName}`,
);
}
const dockerfile = new Dockerfile(buildTask.dockerfile);
if (buildTask.dockerfilePath == null) {
// this is a bit of a hack as resin-bundle-resolve
// does not always export the dockerfilePath, this
// only happens when the dockerfile path is
// specified differently - this should be patched
// in resin-bundle-resolve
this.dockerfilePaths[
buildTask.serviceName
] = this.getDockerfilePathFromTask(buildTask);
} else {
this.dockerfilePaths[buildTask.serviceName] = [
buildTask.dockerfilePath,
];
}
// Find the containerId from the device state
const container = _.find(this.lastDeviceStatus!.containers, {
serviceName,
});
if (container == null) {
return;
}
// path.resolve() converts to an absolute path, removes trailing slashes,
// and also converts forward slashes to backslashes on Windows.
const context = path.resolve(rootContext, service.build.context);
const livepush = await Livepush.init({
dockerfile,
context,
containerId: container.containerId,
stageImages: this.imageIds[serviceName],
docker: this.docker,
});
const buildVars = buildTask.buildMetadata.getBuildVarsForService(
buildTask.serviceName,
);
if (!_.isEmpty(buildVars)) {
livepush.setBuildArgs(buildVars);
}
this.assignLivepushOutputHandlers(serviceName, livepush);
this.updateEventsWaiting[serviceName] = [];
this.deleteEventsWaiting[serviceName] = [];
const addEvent = ($serviceName: string, changedPath: string) => {
this.logger.logDebug(
`Got an add filesystem event for service: ${$serviceName}. File: ${changedPath}`,
);
const eventQueue = this.updateEventsWaiting[$serviceName];
eventQueue.push(changedPath);
this.getDebouncedEventHandler($serviceName)();
};
const monitor = this.setupFilesystemWatcher(
serviceName,
rootContext,
context,
addEvent,
dockerignoreByService,
this.deployOpts.multiDockerignore,
);
this.containers[serviceName] = {
livepush,
context,
monitor,
containerId: container.containerId,
};
this.rebuildsRunning[serviceName] = false;
this.rebuildsCancelled[serviceName] = false;
}
}
// Setup cleanup handlers for the device
process.once('SIGINT', async () => {
this.logger.logLivepush('Cleaning up device...');
await Promise.all(
_.map(this.containers, (container) => {
container.livepush.cleanupIntermediateContainers();
}),
);
this.logger.logDebug('Cleaning up done.');
});
}
protected setupFilesystemWatcher(
serviceName: string,
rootContext: string,
serviceContext: string,
changedPathHandler: (serviceName: string, changedPath: string) => void,
dockerignoreByService: {
[serviceName: string]: import('@balena/dockerignore').Ignore;
},
multiDockerignore: boolean,
): chokidar.FSWatcher {
const contextForDockerignore = multiDockerignore
? serviceContext
: rootContext;
const dockerignore = dockerignoreByService[serviceName];
// TODO: Memoize this for services that share a context
const monitor = chokidar.watch('.', {
cwd: serviceContext,
followSymlinks: true,
ignoreInitial: true,
ignored: (filePath: string, stats: fs.Stats | undefined) => {
if (!stats) {
try {
// sync because chokidar defines a sync interface
stats = fs.lstatSync(filePath);
} catch (err) {
// OK: the file may have been deleted. See also:
// https://github.com/paulmillr/chokidar/blob/3.4.3/lib/fsevents-handler.js#L326-L328
// https://github.com/paulmillr/chokidar/blob/3.4.3/lib/nodefs-handler.js#L364
}
}
if (stats && !stats.isFile() && !stats.isSymbolicLink()) {
// never ignore directories for compatibility with
// dockerignore exclusion patterns
return !stats.isDirectory();
}
const relPath = path.relative(contextForDockerignore, filePath);
return dockerignore.ignores(relPath);
},
});
monitor.on('add', (changedPath: string) =>
changedPathHandler(serviceName, changedPath),
);
monitor.on('change', (changedPath: string) =>
changedPathHandler(serviceName, changedPath),
);
monitor.on('unlink', (changedPath: string) =>
changedPathHandler(serviceName, changedPath),
);
return monitor;
}
/** Stop the filesystem watcher, allowing the Node process to exit gracefully */
public close() {
for (const container of Object.values(this.containers)) {
container.monitor.close().catch((err) => {
if (process.env.DEBUG) {
this.logger.logDebug(`chokidar.close() ${err.message}`);
}
});
}
}
public static preprocessDockerfile(content: string): string {
return new Dockerfile(content).generateLiveDockerfile();
}
private static getMultistageImageIDs(buildLogs: BuildLogs): StageImageIDs {
const stageIds: StageImageIDs = {};
_.each(buildLogs, (log, serviceName) => {
stageIds[serviceName] = [];
const lines = log.split(/\r?\n/);
let lastArrowMessage: string | undefined;
for (const line of lines) {
// If this was a from line, take the last found
// image id and save it
if (
/step \d+(?:\/\d+)?\s*:\s*FROM/i.test(line) &&
lastArrowMessage != null
) {
stageIds[serviceName].push(lastArrowMessage);
} else {
const msg = LivepushManager.extractDockerArrowMessage(line);
if (msg != null) {
lastArrowMessage = msg;
}
}
}
});
return stageIds;
}
private async awaitDeviceStateSettle(): Promise<void> {
// Cache the state to avoid unnecessary calls
this.lastDeviceStatus = await this.api.getStatus();
if (this.lastDeviceStatus.appState === 'applied') {
return;
}
this.logger.logDebug(
`Device state not settled, retrying in ${DEVICE_STATUS_SETTLE_CHECK_INTERVAL}ms`,
);
await delay(DEVICE_STATUS_SETTLE_CHECK_INTERVAL);
await this.awaitDeviceStateSettle();
}
private async handleFSEvents(serviceName: string): Promise<void> {
const updated = this.updateEventsWaiting[serviceName];
const deleted = this.deleteEventsWaiting[serviceName];
this.updateEventsWaiting[serviceName] = [];
this.deleteEventsWaiting[serviceName] = [];
// First we detect if the file changed is the Dockerfile
// used to build the service
if (
_.some(this.dockerfilePaths[serviceName], (name) =>
_.some(updated, (changed) => name === changed),
)
) {
this.logger.logLivepush(
`Detected Dockerfile change, performing full rebuild of service ${serviceName}`,
);
await this.handleServiceRebuild(serviceName);
return;
}
// Work out if we need to perform any changes on this container
const livepush = this.containers[serviceName].livepush;
if (!livepush.livepushNeeded(updated, deleted)) {
return;
}
this.logger.logLivepush(
`Detected changes for container ${serviceName}, updating...`,
);
try {
await livepush.performLivepush(updated, deleted);
} catch (e) {
this.logger.logError(
`An error occured whilst trying to perform a livepush: `,
);
if (instanceOf(e, ContainerNotRunningError)) {
this.logger.logError(' Livepush container not running');
} else {
this.logger.logError(` ${e.message}`);
}
this.logger.logDebug(e.stack);
}
}
private async handleServiceRebuild(serviceName: string): Promise<void> {
if (this.rebuildsRunning[serviceName]) {
this.logger.logLivepush(
`Cancelling ongoing rebuild for service ${serviceName}`,
);
await this.cancelRebuild(serviceName);
while (this.rebuildsCancelled[serviceName]) {
await delay(1000);
}
}
this.rebuildsRunning[serviceName] = true;
try {
const buildTask = _.find(this.buildTasks, { serviceName });
if (buildTask == null) {
throw new Error(
`Could not find a build task for service ${serviceName}`,
);
}
let buildLog: string;
try {
buildLog = await rebuildSingleTask(
serviceName,
this.docker,
this.logger,
this.deviceInfo,
this.composition,
this.buildContext,
this.deployOpts,
(id) => {
this.rebuildRunningIds[serviceName] = id;
},
);
} catch (e) {
if (!(e instanceof BuildError)) {
throw e;
}
if (this.rebuildsCancelled[serviceName]) {
return;
}
this.logger.logError(
`Rebuild of service ${serviceName} failed!\n Error: ${e.getServiceError(
serviceName,
)}`,
);
return;
} finally {
delete this.rebuildRunningIds[serviceName];
}
// If the build has been cancelled, exit early
if (this.rebuildsCancelled[serviceName]) {
return;
}
// Let's first delete the container from the device
const containerId = await this.api.getContainerId(serviceName);
await this.docker.getContainer(containerId).remove({ force: true });
const currentState = await this.api.getTargetState();
// If we re-apply the target state, the supervisor
// should recreate the container
await this.api.setTargetState(
generateTargetState(currentState, this.composition, [buildTask], {}),
);
await this.awaitDeviceStateSettle();
const instance = this.containers[serviceName];
// Get the new container
const container = _.find(this.lastDeviceStatus!.containers, {
serviceName,
});
if (container == null) {
throw new Error(
`Could not find new container for service ${serviceName}`,
);
}
const buildLogs: Dictionary<string> = {};
buildLogs[serviceName] = buildLog;
const stageImages = LivepushManager.getMultistageImageIDs(buildLogs);
const dockerfile = new Dockerfile(buildTask.dockerfile!);
instance.livepush = await Livepush.init({
dockerfile,
context: buildTask.context!,
containerId: container.containerId,
stageImages: stageImages[serviceName],
docker: this.docker,
});
this.assignLivepushOutputHandlers(serviceName, instance.livepush);
} catch (e) {
this.logger.logError(`There was an error rebuilding the service: ${e}`);
} finally {
this.rebuildsRunning[serviceName] = false;
this.rebuildsCancelled[serviceName] = false;
}
}
private async cancelRebuild(serviceName: string) {
this.rebuildsCancelled[serviceName] = true;
// If we have a container id of the current build,
// attempt to kill it
if (this.rebuildRunningIds[serviceName] != null) {
try {
await this.docker
.getContainer(this.rebuildRunningIds[serviceName])
.remove({ force: true });
await this.containers[serviceName].livepush.cancel();
} catch {
// No need to do anything here
}
}
}
private assignLivepushOutputHandlers(
serviceName: string,
livepush: Livepush,
) {
const msgString = (msg: string) =>
`[${getServiceColourFn(serviceName)(serviceName)}] ${msg}`;
const log = (msg: string) => this.logger.logLivepush(msgString(msg));
const error = (msg: string) => this.logger.logError(msgString(msg));
const debugLog = (msg: string) => this.logger.logDebug(msgString(msg));
livepush.on('commandExecute', (command) =>
log(`Executing command: \`${command.command}\``),
);
livepush.on('commandOutput', (output) =>
log(` ${output.output.data.toString()}`),
);
livepush.on('commandReturn', ({ returnCode, command }) => {
if (returnCode !== 0) {
error(` Command ${command} failed with exit code: ${returnCode}`);
} else {
debugLog(`Command ${command} exited successfully`);
}
});
livepush.on('containerRestart', () => {
log('Restarting service...');
});
livepush.on('cancel', () => {
log('Cancelling current livepush...');
});
}
private static extractDockerArrowMessage(
outputLine: string,
): string | undefined {
const arrowTest = /^.*\s*-+>\s*(.+)/i;
const match = arrowTest.exec(outputLine);
if (match != null) {
return match[1];
}
}
private getDockerfilePathFromTask(task: BuildTask): string[] {
switch (task.projectType) {
case 'Standard Dockerfile':
return ['Dockerfile'];
case 'Dockerfile.template':
return ['Dockerfile.template'];
case 'Architecture-specific Dockerfile':
return [
`Dockerfile.${this.deviceInfo.arch}`,
`Dockerfile.${this.deviceInfo.deviceType}`,
];
default:
return [];
}
}
// For each service, get a debounced function
private getDebouncedEventHandler = _.memoize((serviceName: string) => {
return _.debounce(
() => this.handleFSEvents(serviceName),
LIVEPUSH_DEBOUNCE_TIMEOUT,
);
});
}
export default LivepushManager;