package common import ( "bytes" "errors" "fmt" "io/ioutil" "log" "net" "os" "os/exec" "regexp" "runtime" "strconv" "strings" "time" "github.com/hashicorp/packer/helper/multistep" ) // A driver is able to talk to VMware, control virtual machines, etc. type Driver interface { // Clone clones the VMX and the disk to the destination path. The // destination is a path to the VMX file. The disk will be copied // to that same directory. Clone(dst string, src string, cloneType bool) error // CompactDisk compacts a virtual disk. CompactDisk(string) error // CreateDisk creates a virtual disk with the given size. CreateDisk(string, string, string, string) error // Checks if the VMX file at the given path is running. IsRunning(string) (bool, error) // Start starts a VM specified by the path to the VMX given. Start(string, bool) error // Stop stops a VM specified by the path to the VMX given. Stop(string) error // SuppressMessages modifies the VMX or surrounding directory so that // VMware doesn't show any annoying messages. SuppressMessages(string) error // Get the path to the VMware ISO for the given flavor. ToolsIsoPath(string) string // Attach the VMware tools ISO ToolsInstall() error // Verify checks to make sure that this driver should function // properly. This should check that all the files it will use // appear to exist and so on. If everything is okay, this doesn't // return an error. Otherwise, this returns an error. Each vmware // driver should assign the VmwareMachine callback functions for locating // paths within this function. Verify() error /// This is to establish a connection to the guest CommHost(multistep.StateBag) (string, error) /// These methods are generally implemented by the VmwareDriver /// structure within this file. A driver implementation can /// reimplement these, though, if it wants. GetVmwareDriver() VmwareDriver // Get the guest hw address for the vm GuestAddress(multistep.StateBag) (string, error) // Get the guest ip address for the vm GuestIP(multistep.StateBag) (string, error) // Get the host hw address for the vm HostAddress(multistep.StateBag) (string, error) // Get the host ip address for the vm HostIP(multistep.StateBag) (string, error) } // NewDriver returns a new driver implementation for this operating // system, or an error if the driver couldn't be initialized. func NewDriver(dconfig *DriverConfig, config *SSHConfig, vmName string) (Driver, error) { drivers := []Driver{} if dconfig.RemoteType != "" { drivers = []Driver{ &ESX5Driver{ Host: dconfig.RemoteHost, Port: dconfig.RemotePort, Username: dconfig.RemoteUser, Password: dconfig.RemotePassword, PrivateKeyFile: dconfig.RemotePrivateKey, Datastore: dconfig.RemoteDatastore, CacheDatastore: dconfig.RemoteCacheDatastore, CacheDirectory: dconfig.RemoteCacheDirectory, VMName: vmName, CommConfig: config.Comm, }, } } else { switch runtime.GOOS { case "darwin": drivers = []Driver{ &Fusion6Driver{ Fusion5Driver: Fusion5Driver{ AppPath: dconfig.FusionAppPath, SSHConfig: config, }, }, &Fusion5Driver{ AppPath: dconfig.FusionAppPath, SSHConfig: config, }, } case "linux": fallthrough case "windows": drivers = []Driver{ &Workstation10Driver{ Workstation9Driver: Workstation9Driver{ SSHConfig: config, }, }, &Workstation9Driver{ SSHConfig: config, }, &Player6Driver{ Player5Driver: Player5Driver{ SSHConfig: config, }, }, &Player5Driver{ SSHConfig: config, }, } default: return nil, fmt.Errorf("can't find driver for OS: %s", runtime.GOOS) } } errs := "" for _, driver := range drivers { err := driver.Verify() log.Printf("Testing vmware driver %T. Success: %t", driver, err == nil) if err == nil { return driver, nil } errs += "* " + err.Error() + "\n" } return nil, fmt.Errorf( "Unable to initialize any driver for this platform. The errors\n"+ "from each driver are shown below. Please fix at least one driver\n"+ "to continue:\n%s", errs) } func runAndLog(cmd *exec.Cmd) (string, string, error) { var stdout, stderr bytes.Buffer log.Printf("Executing: %s %s", cmd.Path, strings.Join(cmd.Args[1:], " ")) cmd.Stdout = &stdout cmd.Stderr = &stderr err := cmd.Run() stdoutString := strings.TrimSpace(stdout.String()) stderrString := strings.TrimSpace(stderr.String()) if _, ok := err.(*exec.ExitError); ok { message := stderrString if message == "" { message = stdoutString } err = fmt.Errorf("VMware error: %s", message) // If "unknown error" is in there, add some additional notes re := regexp.MustCompile(`(?i)unknown error`) if re.MatchString(message) { err = fmt.Errorf( "%s\n\n%s", err, "Packer detected a VMware 'Unknown Error'. Unfortunately VMware\n"+ "often has extremely vague error messages such as this and Packer\n"+ "itself can't do much about that. Please check the vmware.log files\n"+ "created by VMware when a VM is started (in the directory of the\n"+ "vmx file), which often contains more detailed error information.\n\n"+ "You may need to set the command line flag --on-error=abort to\n\n"+ "prevent Packer from cleaning up the vmx file directory.") } } log.Printf("stdout: %s", stdoutString) log.Printf("stderr: %s", stderrString) // Replace these for Windows, we only want to deal with Unix // style line endings. returnStdout := strings.Replace(stdout.String(), "\r\n", "\n", -1) returnStderr := strings.Replace(stderr.String(), "\r\n", "\n", -1) return returnStdout, returnStderr, err } func normalizeVersion(version string) (string, error) { i, err := strconv.Atoi(version) if err != nil { return "", fmt.Errorf( "VMware version '%s' is not numeric", version) } return fmt.Sprintf("%02d", i), nil } func compareVersions(versionFound string, versionWanted string, product string) error { found, err := normalizeVersion(versionFound) if err != nil { return err } wanted, err := normalizeVersion(versionWanted) if err != nil { return err } if found < wanted { return fmt.Errorf( "VMware %s version %s, or greater, is required. Found version: %s", product, versionWanted, versionFound) } return nil } /// helper functions that read configuration information from a file // read the network<->device configuration out of the specified path func ReadNetmapConfig(path string) (NetworkMap, error) { fd, err := os.Open(path) if err != nil { return nil, err } defer fd.Close() return ReadNetworkMap(fd) } // read the dhcp configuration out of the specified path func ReadDhcpConfig(path string) (DhcpConfiguration, error) { fd, err := os.Open(path) if err != nil { return nil, err } defer fd.Close() return ReadDhcpConfiguration(fd) } // read the VMX configuration from the specified path func readVMXConfig(path string) (map[string]string, error) { f, err := os.Open(path) if err != nil { return map[string]string{}, err } defer f.Close() vmxBytes, err := ioutil.ReadAll(f) if err != nil { return map[string]string{}, err } return ParseVMX(string(vmxBytes)), nil } // read the connection type out of a vmx configuration func readCustomDeviceName(vmxData map[string]string) (string, error) { connectionType, ok := vmxData["ethernet0.connectiontype"] if !ok || connectionType != "custom" { return "", fmt.Errorf("Unable to determine the device name for the connection type : %s", connectionType) } device, ok := vmxData["ethernet0.vnet"] if !ok || device == "" { return "", fmt.Errorf("Unable to determine the device name for the connection type \"%s\" : %s", connectionType, device) } return device, nil } // This VmwareDriver is a base class that contains default methods // that a Driver can use or implement themselves. type VmwareDriver struct { /// These methods define paths that are utilized by the driver /// A driver must overload these in order to point to the correct /// files so that the address detection (ip and ethernet) machinery /// works. DhcpLeasesPath func(string) string DhcpConfPath func(string) string VmnetnatConfPath func(string) string /// This method returns an object with the NetworkNameMapper interface /// that maps network to device and vice-versa. NetworkMapper func() (NetworkNameMapper, error) } func (d *VmwareDriver) GuestAddress(state multistep.StateBag) (string, error) { vmxPath := state.Get("vmx_path").(string) log.Println("Lookup up IP information...") vmxData, err := readVMXConfig(vmxPath) if err != nil { return "", err } var ok bool macAddress := "" if macAddress, ok = vmxData["ethernet0.address"]; !ok || macAddress == "" { if macAddress, ok = vmxData["ethernet0.generatedaddress"]; !ok || macAddress == "" { return "", errors.New("couldn't find MAC address in VMX") } } log.Printf("GuestAddress found MAC address in VMX: %s", macAddress) res, err := net.ParseMAC(macAddress) if err != nil { return "", err } return res.String(), nil } func (d *VmwareDriver) GuestIP(state multistep.StateBag) (string, error) { // grab network mapper netmap, err := d.NetworkMapper() if err != nil { return "", err } // convert the stashed network to a device network := state.Get("vmnetwork").(string) devices, err := netmap.NameIntoDevices(network) // log them to see what was detected for _, device := range devices { log.Printf("GuestIP discovered device matching %s: %s", network, device) } // we were unable to find the device, maybe it's a custom one... // so, check to see if it's in the .vmx configuration if err != nil || network == "custom" { vmxPath := state.Get("vmx_path").(string) vmxData, err := readVMXConfig(vmxPath) if err != nil { return "", err } var device string device, err = readCustomDeviceName(vmxData) devices = append(devices, device) if err != nil { return "", err } log.Printf("GuestIP discovered custom device matching %s: %s", network, device) } // figure out our MAC address for looking up the guest address MACAddress, err := d.GuestAddress(state) if err != nil { return "", err } for _, device := range devices { // figure out the correct dhcp leases dhcpLeasesPath := d.DhcpLeasesPath(device) log.Printf("Trying DHCP leases path: %s", dhcpLeasesPath) if dhcpLeasesPath == "" { return "", fmt.Errorf("no DHCP leases path found for device %s", device) } // open up the lease and read its contents fh, err := os.Open(dhcpLeasesPath) if err != nil { log.Printf("Error while reading DHCP lease path file %s: %s", dhcpLeasesPath, err.Error()) continue } defer fh.Close() dhcpBytes, err := ioutil.ReadAll(fh) if err != nil { return "", err } // start grepping through the file looking for fields that we care about var lastIp string var lastLeaseEnd time.Time var curIp string var curLeaseEnd time.Time ipLineRe := regexp.MustCompile(`^lease (.+?) {$`) endTimeLineRe := regexp.MustCompile(`^\s*ends \d (.+?);$`) macLineRe := regexp.MustCompile(`^\s*hardware ethernet (.+?);$`) for _, line := range strings.Split(string(dhcpBytes), "\n") { // Need to trim off CR character when running in windows line = strings.TrimRight(line, "\r") matches := ipLineRe.FindStringSubmatch(line) if matches != nil { lastIp = matches[1] continue } matches = endTimeLineRe.FindStringSubmatch(line) if matches != nil { lastLeaseEnd, _ = time.Parse("2006/01/02 15:04:05", matches[1]) continue } // If the mac address matches and this lease ends farther in the // future than the last match we might have, then choose it. matches = macLineRe.FindStringSubmatch(line) if matches != nil && strings.EqualFold(matches[1], MACAddress) && curLeaseEnd.Before(lastLeaseEnd) { curIp = lastIp curLeaseEnd = lastLeaseEnd } } if curIp != "" { return curIp, nil } } return "", fmt.Errorf("None of the found device(s) %v has a DHCP lease for MAC %s", devices, MACAddress) } func (d *VmwareDriver) HostAddress(state multistep.StateBag) (string, error) { // grab mapper for converting network<->device netmap, err := d.NetworkMapper() if err != nil { return "", err } // convert network to name network := state.Get("vmnetwork").(string) devices, err := netmap.NameIntoDevices(network) // log them to see what was detected for _, device := range devices { log.Printf("HostAddress discovered device matching %s: %s", network, device) } // we were unable to find the device, maybe it's a custom one... // so, check to see if it's in the .vmx configuration if err != nil || network == "custom" { vmxPath := state.Get("vmx_path").(string) vmxData, err := readVMXConfig(vmxPath) if err != nil { return "", err } var device string device, err = readCustomDeviceName(vmxData) devices = append(devices, device) if err != nil { return "", err } log.Printf("HostAddress discovered custom device matching %s: %s", network, device) } var lastError error for _, device := range devices { // parse dhcpd configuration pathDhcpConfig := d.DhcpConfPath(device) if _, err := os.Stat(pathDhcpConfig); err != nil { return "", fmt.Errorf("Could not find vmnetdhcp conf file: %s", pathDhcpConfig) } config, err := ReadDhcpConfig(pathDhcpConfig) if err != nil { lastError = err continue } // find the entry configured in the dhcpd interfaceConfig, err := config.HostByName(device) if err != nil { lastError = err continue } // finally grab the hardware address address, err := interfaceConfig.Hardware() if err == nil { return address.String(), nil } // we didn't find it, so search through our interfaces for the device name interfaceList, err := net.Interfaces() if err == nil { return "", err } names := make([]string, 0) for _, intf := range interfaceList { if strings.HasSuffix(strings.ToLower(intf.Name), device) { return intf.HardwareAddr.String(), nil } names = append(names, intf.Name) } } return "", fmt.Errorf("Unable to find host address from devices %v, last error: %s", devices, lastError) } func (d *VmwareDriver) HostIP(state multistep.StateBag) (string, error) { // grab mapper for converting network<->device netmap, err := d.NetworkMapper() if err != nil { return "", err } // convert network to name network := state.Get("vmnetwork").(string) devices, err := netmap.NameIntoDevices(network) // log them to see what was detected for _, device := range devices { log.Printf("HostIP discovered device matching %s: %s", network, device) } // we were unable to find the device, maybe it's a custom one... // so, check to see if it's in the .vmx configuration if err != nil || network == "custom" { vmxPath := state.Get("vmx_path").(string) vmxData, err := readVMXConfig(vmxPath) if err != nil { return "", err } var device string device, err = readCustomDeviceName(vmxData) devices = append(devices, device) if err != nil { return "", err } log.Printf("HostIP discovered custom device matching %s: %s", network, device) } var lastError error for _, device := range devices { // parse dhcpd configuration pathDhcpConfig := d.DhcpConfPath(device) if _, err := os.Stat(pathDhcpConfig); err != nil { return "", fmt.Errorf("Could not find vmnetdhcp conf file: %s", pathDhcpConfig) } config, err := ReadDhcpConfig(pathDhcpConfig) if err != nil { lastError = err continue } // find the entry configured in the dhcpd interfaceConfig, err := config.HostByName(device) if err != nil { lastError = err continue } address, err := interfaceConfig.IP4() if err != nil { lastError = err continue } return address.String(), nil } return "", fmt.Errorf("Unable to find host IP from devices %v, last error: %s", devices, lastError) }