# Functions to help actions which rely on using docker QEMU_VERSION = 'v2.5.50-resin-execve' QEMU_BIN_NAME = 'qemu-execve' # Use this function to seed an action's list of capitano options # with the docker options. Using this interface means that # all functions using docker will expose the same interface # # NOTE: Care MUST be taken when using the function, so as to # not redefine/override options already provided. exports.appendOptions = (opts) -> opts.concat [ { signature: 'docker' parameter: 'docker' description: 'Path to a local docker socket' alias: 'P' }, { signature: 'dockerHost' parameter: 'dockerHost' description: 'The address of the host containing the docker daemon' alias: 'h' }, { signature: 'dockerPort' parameter: 'dockerPort' description: 'The port on which the host docker daemon is listening' alias: 'p' }, { signature: 'ca' parameter: 'ca' description: 'Docker host TLS certificate authority file' }, { signature: 'cert' parameter: 'cert' description: 'Docker host TLS certificate file' }, { signature: 'key' parameter: 'key' description: 'Docker host TLS key file' }, { signature: 'tag' parameter: 'tag' description: 'The alias to the generated image' alias: 't' }, { signature: 'buildArg' parameter: 'arg' description: 'Set a build-time variable (eg. "-B \'ARG=value\'"). Can be specified multiple times.' alias: 'B' }, { signature: 'nocache' description: "Don't use docker layer caching when building" boolean: true }, { signature: 'emulated' description: 'Run an emulated build using Qemu' boolean: true alias: 'e' }, { signature: 'squash' description: 'Squash newly built layers into a single new layer' boolean: true } ] exports.generateConnectOpts = generateConnectOpts = (opts) -> Promise = require('bluebird') fs = require('mz/fs') _ = require('lodash') Promise.try -> connectOpts = {} # Firsly need to decide between a local docker socket # and a host available over a host:port combo if opts.docker? and not opts.dockerHost? # good, local docker socket connectOpts.socketPath = opts.docker else if opts.dockerHost? and not opts.docker? # Good a host is provided, and local socket isn't connectOpts.host = opts.dockerHost connectOpts.port = opts.dockerPort || 2376 else if opts.docker? and opts.dockerHost? # Both provided, no obvious way to continue throw new Error("Both a local docker socket and docker host have been provided. Don't know how to continue.") else # None provided, assume default docker local socket connectOpts.socketPath = '/var/run/docker.sock' # Now need to check if the user wants to connect over TLS # to the host # If any are set... if (opts.ca? or opts.cert? or opts.key?) # but not all if not (opts.ca? and opts.cert? and opts.key?) throw new Error('You must provide a CA, certificate and key in order to use TLS') certBodies = { ca: fs.readFile(opts.ca, 'utf-8') cert: fs.readFile(opts.cert, 'utf-8') key: fs.readFile(opts.key, 'utf-8') } return Promise.props(certBodies) .then (toMerge) -> _.merge(connectOpts, toMerge) return connectOpts exports.tarDirectory = tarDirectory = (dir) -> Promise = require('bluebird') tar = require('tar-stream') klaw = require('klaw') path = require('path') fs = require('mz/fs') streamToPromise = require('stream-to-promise') getFiles = -> streamToPromise(klaw(dir)) .filter((item) -> not item.stats.isDirectory()) .map((item) -> item.path) pack = tar.pack() getFiles(dir) .map (file) -> relPath = path.relative(path.resolve(dir), file) Promise.join relPath, fs.stat(file), fs.readFile(file), (filename, stats, data) -> pack.entryAsync({ name: filename, size: stats.size, mode: stats.mode }, data) .then -> pack.finalize() return pack cacheHighlightStream = -> colors = require('colors/safe') es = require('event-stream') { EOL } = require('os') extractArrowMessage = (message) -> arrowTest = /^\s*-+>\s*(.+)/i if (match = arrowTest.exec(message)) match[1] else undefined es.mapSync (data) -> msg = extractArrowMessage(data) if msg? and msg.toLowerCase() == 'using cache' data = colors.bgGreen.black(msg) return data + EOL parseBuildArgs = (args, onError) -> _ = require('lodash') if not _.isArray(args) args = [ args ] buildArgs = {} args.forEach (str) -> pair = /^([^\s]+?)=(.*)$/.exec(str) if pair? buildArgs[pair[1]] = pair[2] else onError(str) return buildArgs # Pass in the command line parameters and options and also # a function which will return the information about the bundle exports.runBuild = (params, options, getBundleInfo, logStreams) -> Promise = require('bluebird') dockerBuild = require('resin-docker-build') resolver = require('resin-bundle-resolve') es = require('event-stream') doodles = require('resin-doodles') transpose = require('docker-qemu-transpose') path = require('path') logging = require('../utils/logging') # The default build context is the current directory params.source ?= '.' logs = '' # Only used in emulated builds qemuPath = '' Promise.try -> return if not (options.emulated and platformNeedsQemu()) hasQemu() .then (present) -> if !present logging.logInfo(logStreams, 'Installing qemu for ARM emulation...') installQemu() .then -> # Copy the qemu binary into the build context copyQemu(params.source) .then (binPath) -> qemuPath = path.relative(params.source, binPath) .then -> # Tar up the directory, ready for the build stream tarDirectory(params.source) .then (tarStream) -> new Promise (resolve, reject) -> hooks = buildSuccess: (image) -> if options.tag? console.log("Tagging image as #{options.tag}") # Show charlie. In the interest of cloud parity, # use console.log, not the standard logging streams doodle = doodles.getDoodle() console.log() console.log(doodle) console.log() resolve({ image, log: logs + '\n' + doodle + '\n' } ) buildFailure: reject buildStream: (stream) -> if options.emulated logging.logInfo(logStreams, 'Running emulated build') getBundleInfo(options) .then (info) -> if !info? logging.logWarn logStreams, ''' Warning: No architecture/device type or application information provided. Dockerfile/project pre-processing will not be performed. ''' return tarStream else [arch, deviceType] = info # Perform type resolution on the project bundle = new resolver.Bundle(tarStream, deviceType, arch) resolver.resolveBundle(bundle, resolver.getDefaultResolvers()) .then (resolved) -> logging.logInfo(logStreams, "Building #{resolved.projectType} project") return resolved.tarStream .then (buildStream) -> # if we need emulation if options.emulated and platformNeedsQemu() return transpose.transposeTarStream buildStream, hostQemuPath: qemuPath containerQemuPath: "/tmp/#{QEMU_BIN_NAME}" else return buildStream .then (buildStream) -> # Send the resolved tar stream to the docker daemon buildStream.pipe(stream) .catch(reject) # And print the output logThroughStream = es.through (data) -> logs += data.toString() this.emit('data', data) if options.emulated and platformNeedsQemu() buildThroughStream = transpose.getBuildThroughStream hostQemuPath: qemuPath containerQemuPath: "/tmp/#{QEMU_BIN_NAME}" newStream = stream.pipe(buildThroughStream) else newStream = stream newStream .pipe(logThroughStream) .pipe(cacheHighlightStream()) .pipe(logStreams.build) # Create a builder generateConnectOpts(options) .then (connectOpts) -> # Allow degugging output, hidden behind an env var logging.logDebug(logStreams, 'Connecting with the following options:') logging.logDebug(logStreams, JSON.stringify(connectOpts, null, ' ')) builder = new dockerBuild.Builder(connectOpts) opts = {} if options.tag? opts['t'] = options.tag if options.nocache? opts['nocache'] = true if options.buildArg? opts['buildargs'] = parseBuildArgs options.buildArg, (arg) -> logging.logWarn(logStreams, "Could not parse variable: '#{arg}'") if options.squash? opts['squash'] = true builder.createBuildStream(opts, hooks, reject) # Given an image id or tag, export the image to a tar archive, # gzip the result, and buffer it to disk. exports.bufferImage = (docker, imageId, bufferFile) -> Promise = require('bluebird') streamUtils = require('./streams') image = docker.getImage(imageId) imageMetadata = image.inspectAsync() Promise.join image.get(), imageMetadata.get('Size'), (imageStream, imageSize) -> streamUtils.buffer(imageStream, bufferFile) .tap (bufferedStream) -> bufferedStream.length = imageSize exports.getDocker = (options) -> Docker = require('dockerode') Promise = require('bluebird') generateConnectOpts(options) .then (connectOpts) -> # Use bluebird's promises connectOpts['Promise'] = Promise new Docker(connectOpts) hasQemu = -> fs = require('mz/fs') getQemuPath() .then(fs.stat) .return(true) .catchReturn(false) getQemuPath = -> resin = require('resin-sdk-preconfigured') path = require('path') fs = require('mz/fs') resin.settings.get('binDirectory') .then (binDir) -> # The directory might not be created already, # if not, create it fs.access(binDir) .catch code: 'ENOENT', -> fs.mkdir(binDir) .then -> path.join(binDir, QEMU_BIN_NAME) platformNeedsQemu = -> os = require('os') os.platform() == 'linux' installQemu = -> request = require('request') fs = require('fs') zlib = require('zlib') getQemuPath() .then (qemuPath) -> new Promise (resolve, reject) -> installStream = fs.createWriteStream(qemuPath) qemuUrl = "https://github.com/resin-io/qemu/releases/download/#{QEMU_VERSION}/#{QEMU_BIN_NAME}.gz" request(qemuUrl) .pipe(zlib.createGunzip()) .pipe(installStream) .on('error', reject) .on('finish', resolve) copyQemu = (context) -> path = require('path') fs = require('mz/fs') # Create a hidden directory in the build context, containing qemu binDir = path.join(context, '.resin') binPath = path.join(binDir, QEMU_BIN_NAME) fs.access(binDir) .catch code: 'ENOENT', -> fs.mkdir(binDir) .then -> getQemuPath() .then (qemu) -> new Promise (resolve, reject) -> read = fs.createReadStream(qemu) write = fs.createWriteStream(binPath) read .pipe(write) .on('error', reject) .on('finish', resolve) .then -> fs.chmod(binPath, '755') .return(binPath)