func (manager *containerManager) CreateContainer( machineConfig *cloudinit.MachineConfig, series string, network *container.NetworkConfig) (instance.Instance, *instance.HardwareCharacteristics, error) { name := names.MachineTag(machineConfig.MachineId) if manager.name != "" { name = fmt.Sprintf("%s-%s", manager.name, name) } // Note here that the kvmObjectFacotry only returns a valid container // object, and doesn't actually construct the underlying kvm container on // disk. kvmContainer := KvmObjectFactory.New(name) // Create the cloud-init. directory, err := container.NewDirectory(name) if err != nil { return nil, nil, fmt.Errorf("failed to create container directory: %v", err) } logger.Tracef("write cloud-init") userDataFilename, err := container.WriteUserData(machineConfig, directory) if err != nil { return nil, nil, errors.LoggedErrorf(logger, "failed to write user data: %v", err) } // Create the container. startParams := ParseConstraintsToStartParams(machineConfig.Constraints) startParams.Arch = version.Current.Arch startParams.Series = series startParams.Network = network startParams.UserDataFile = userDataFilename var hardware instance.HardwareCharacteristics hardware, err = instance.ParseHardware( fmt.Sprintf("arch=%s mem=%vM root-disk=%vG cpu-cores=%v", startParams.Arch, startParams.Memory, startParams.RootDisk, startParams.CpuCores)) if err != nil { logger.Warningf("failed to parse hardware: %v", err) } logger.Tracef("create the container, constraints: %v", machineConfig.Constraints) if err := kvmContainer.Start(startParams); err != nil { return nil, nil, errors.LoggedErrorf(logger, "kvm container creation failed: %v", err) } logger.Tracef("kvm container created") return &kvmInstance{kvmContainer, name}, &hardware, nil }
func (manager *containerManager) CreateContainer( machineConfig *cloudinit.MachineConfig, series string, network *container.NetworkConfig, ) (instance.Instance, *instance.HardwareCharacteristics, error) { start := time.Now() name := names.MachineTag(machineConfig.MachineId) if manager.name != "" { name = fmt.Sprintf("%s-%s", manager.name, name) } // Create the cloud-init. directory, err := container.NewDirectory(name) if err != nil { return nil, nil, err } logger.Tracef("write cloud-init") if manager.createWithClone { // If we are using clone, disable the apt-get steps machineConfig.DisablePackageCommands = true } userDataFilename, err := container.WriteUserData(machineConfig, directory) if err != nil { logger.Errorf("failed to write user data: %v", err) return nil, nil, err } logger.Tracef("write the lxc.conf file") configFile, err := writeLxcConfig(network, directory) if err != nil { logger.Errorf("failed to write config file: %v", err) return nil, nil, err } var lxcContainer golxc.Container if manager.createWithClone { templateContainer, err := EnsureCloneTemplate( manager.backingFilesystem, series, network, machineConfig.AuthorizedKeys, machineConfig.AptProxySettings, ) if err != nil { return nil, nil, err } templateParams := []string{ "--debug", // Debug errors in the cloud image "--userdata", userDataFilename, // Our groovey cloud-init "--hostid", name, // Use the container name as the hostid } var extraCloneArgs []string if manager.backingFilesystem == Btrfs || manager.useAUFS { extraCloneArgs = append(extraCloneArgs, "--snapshot") } if manager.backingFilesystem != Btrfs && manager.useAUFS { extraCloneArgs = append(extraCloneArgs, "--backingstore", "aufs") } lock, err := AcquireTemplateLock(templateContainer.Name(), "clone") if err != nil { return nil, nil, fmt.Errorf("failed to acquire lock on template: %v", err) } defer lock.Unlock() lxcContainer, err = templateContainer.Clone(name, extraCloneArgs, templateParams) if err != nil { logger.Errorf("lxc container cloning failed: %v", err) return nil, nil, err } } else { // Note here that the lxcObjectFacotry only returns a valid container // object, and doesn't actually construct the underlying lxc container on // disk. lxcContainer = LxcObjectFactory.New(name) templateParams := []string{ "--debug", // Debug errors in the cloud image "--userdata", userDataFilename, // Our groovey cloud-init "--hostid", name, // Use the container name as the hostid "-r", series, } // Create the container. logger.Tracef("create the container") if err := lxcContainer.Create(configFile, defaultTemplate, nil, templateParams); err != nil { logger.Errorf("lxc container creation failed: %v", err) return nil, nil, err } logger.Tracef("lxc container created") } if err := autostartContainer(name); err != nil { return nil, nil, err } if err := mountHostLogDir(name, manager.logdir); err != nil { return nil, nil, err } // Start the lxc container with the appropriate settings for grabbing the // console output and a log file. consoleFile := filepath.Join(directory, "console.log") lxcContainer.SetLogFile(filepath.Join(directory, "container.log"), golxc.LogDebug) logger.Tracef("start the container") // We explicitly don't pass through the config file to the container.Start // method as we have passed it through at container creation time. This // is necessary to get the appropriate rootfs reference without explicitly // setting it ourselves. if err = lxcContainer.Start("", consoleFile); err != nil { logger.Errorf("container failed to start: %v", err) return nil, nil, err } arch := version.Current.Arch hardware := &instance.HardwareCharacteristics{ Arch: &arch, } logger.Tracef("container %q started: %v", name, time.Now().Sub(start)) return &lxcInstance{lxcContainer, name}, hardware, nil }