package command import ( "bufio" "flag" "fmt" "io" "log" "os" "path/filepath" "strconv" "github.com/hashicorp/errwrap" "github.com/hashicorp/go-getter" "github.com/hashicorp/terraform/config" "github.com/hashicorp/terraform/config/module" "github.com/hashicorp/terraform/helper/experiment" "github.com/hashicorp/terraform/helper/wrappedstreams" "github.com/hashicorp/terraform/state" "github.com/hashicorp/terraform/terraform" "github.com/mitchellh/cli" "github.com/mitchellh/colorstring" ) // Meta are the meta-options that are available on all or most commands. type Meta struct { Color bool ContextOpts *terraform.ContextOpts Ui cli.Ui // State read when calling `Context`. This is available after calling // `Context`. state state.State stateResult *StateResult // This can be set by the command itself to provide extra hooks. extraHooks []terraform.Hook // This can be set by tests to change some directories dataDir string // Variables for the context (private) autoKey string autoVariables map[string]interface{} input bool variables map[string]interface{} // Targets for this context (private) targets []string color bool oldUi cli.Ui // The fields below are expected to be set by the command via // command line flags. See the Apply command for an example. // // statePath is the path to the state file. If this is empty, then // no state will be loaded. It is also okay for this to be a path to // a file that doesn't exist; it is assumed that this means that there // is simply no state. // // stateOutPath is used to override the output path for the state. // If not provided, the StatePath is used causing the old state to // be overriden. // // backupPath is used to backup the state file before writing a modified // version. It defaults to stateOutPath + DefaultBackupExtension // // parallelism is used to control the number of concurrent operations // allowed when walking the graph // // shadow is used to enable/disable the shadow graph statePath string stateOutPath string backupPath string parallelism int shadow bool } // initStatePaths is used to initialize the default values for // statePath, stateOutPath, and backupPath func (m *Meta) initStatePaths() { if m.statePath == "" { m.statePath = DefaultStateFilename } if m.stateOutPath == "" { m.stateOutPath = m.statePath } if m.backupPath == "" { m.backupPath = m.stateOutPath + DefaultBackupExtension } } // StateOutPath returns the true output path for the state file func (m *Meta) StateOutPath() string { return m.stateOutPath } // Colorize returns the colorization structure for a command. func (m *Meta) Colorize() *colorstring.Colorize { return &colorstring.Colorize{ Colors: colorstring.DefaultColors, Disable: !m.color, Reset: true, } } // Context returns a Terraform Context taking into account the context // options used to initialize this meta configuration. func (m *Meta) Context(copts contextOpts) (*terraform.Context, bool, error) { opts := m.contextOpts() // First try to just read the plan directly from the path given. f, err := os.Open(copts.Path) if err == nil { plan, err := terraform.ReadPlan(f) f.Close() if err == nil { // Setup our state, force it to use our plan's state stateOpts := m.StateOpts() if plan != nil { stateOpts.ForceState = plan.State } // Get the state result, err := State(stateOpts) if err != nil { return nil, false, fmt.Errorf("Error loading plan: %s", err) } // Set our state m.state = result.State // this is used for printing the saved location later if m.stateOutPath == "" { m.stateOutPath = result.StatePath } if len(m.variables) > 0 { return nil, false, fmt.Errorf( "You can't set variables with the '-var' or '-var-file' flag\n" + "when you're applying a plan file. The variables used when\n" + "the plan was created will be used. If you wish to use different\n" + "variable values, create a new plan file.") } ctx, err := plan.Context(opts) return ctx, true, err } } // Load the statePath if not given if copts.StatePath != "" { m.statePath = copts.StatePath } // Tell the context if we're in a destroy plan / apply opts.Destroy = copts.Destroy // Store the loaded state state, err := m.State() if err != nil { return nil, false, err } // Load the root module var mod *module.Tree if copts.Path != "" { mod, err = module.NewTreeModule("", copts.Path) // Check for the error where we have no config files but // allow that. If that happens, clear the error. if errwrap.ContainsType(err, new(config.ErrNoConfigsFound)) && copts.PathEmptyOk { log.Printf( "[WARN] Empty configuration dir, ignoring: %s", copts.Path) err = nil mod = module.NewEmptyTree() } if err != nil { return nil, false, fmt.Errorf("Error loading config: %s", err) } } else { mod = module.NewEmptyTree() } err = mod.Load(m.moduleStorage(m.DataDir()), copts.GetMode) if err != nil { return nil, false, fmt.Errorf("Error downloading modules: %s", err) } // Validate the module right away if err := mod.Validate(); err != nil { return nil, false, err } opts.Module = mod opts.Parallelism = copts.Parallelism opts.State = state.State() ctx, err := terraform.NewContext(opts) return ctx, false, err } // DataDir returns the directory where local data will be stored. func (m *Meta) DataDir() string { dataDir := DefaultDataDir if m.dataDir != "" { dataDir = m.dataDir } return dataDir } const ( // InputModeEnvVar is the environment variable that, if set to "false" or // "0", causes terraform commands to behave as if the `-input=false` flag was // specified. InputModeEnvVar = "TF_INPUT" ) // InputMode returns the type of input we should ask for in the form of // terraform.InputMode which is passed directly to Context.Input. func (m *Meta) InputMode() terraform.InputMode { if test || !m.input { return 0 } if envVar := os.Getenv(InputModeEnvVar); envVar != "" { if v, err := strconv.ParseBool(envVar); err == nil { if !v { return 0 } } } var mode terraform.InputMode mode |= terraform.InputModeProvider mode |= terraform.InputModeVar mode |= terraform.InputModeVarUnset return mode } // State returns the state for this meta. func (m *Meta) State() (state.State, error) { if m.state != nil { return m.state, nil } result, err := State(m.StateOpts()) if err != nil { return nil, err } m.state = result.State m.stateOutPath = result.StatePath m.stateResult = result return m.state, nil } // StateRaw is used to setup the state manually. func (m *Meta) StateRaw(opts *StateOpts) (*StateResult, error) { result, err := State(opts) if err != nil { return nil, err } m.state = result.State m.stateOutPath = result.StatePath m.stateResult = result return result, nil } // StateOpts returns the default state options func (m *Meta) StateOpts() *StateOpts { localPath := m.statePath if localPath == "" { localPath = DefaultStateFilename } remotePath := filepath.Join(m.DataDir(), DefaultStateFilename) return &StateOpts{ LocalPath: localPath, LocalPathOut: m.stateOutPath, RemotePath: remotePath, RemoteRefresh: true, BackupPath: m.backupPath, } } // UIInput returns a UIInput object to be used for asking for input. func (m *Meta) UIInput() terraform.UIInput { return &UIInput{ Colorize: m.Colorize(), } } // PersistState is used to write out the state, handling backup of // the existing state file and respecting path configurations. func (m *Meta) PersistState(s *terraform.State) error { if err := m.state.WriteState(s); err != nil { return err } return m.state.PersistState() } // Input returns true if we should ask for input for context. func (m *Meta) Input() bool { return !test && m.input && len(m.variables) == 0 } // StdinPiped returns true if the input is piped. func (m *Meta) StdinPiped() bool { fi, err := wrappedstreams.Stdin().Stat() if err != nil { // If there is an error, let's just say its not piped return false } return fi.Mode()&os.ModeNamedPipe != 0 } // contextOpts returns the options to use to initialize a Terraform // context with the settings from this Meta. func (m *Meta) contextOpts() *terraform.ContextOpts { var opts terraform.ContextOpts = *m.ContextOpts opts.Hooks = []terraform.Hook{m.uiHook(), &terraform.DebugHook{}} opts.Hooks = append(opts.Hooks, m.ContextOpts.Hooks...) opts.Hooks = append(opts.Hooks, m.extraHooks...) vs := make(map[string]interface{}) for k, v := range opts.Variables { vs[k] = v } for k, v := range m.autoVariables { vs[k] = v } for k, v := range m.variables { vs[k] = v } opts.Variables = vs opts.Targets = m.targets opts.UIInput = m.UIInput() opts.Shadow = m.shadow return &opts } // flags adds the meta flags to the given FlagSet. func (m *Meta) flagSet(n string) *flag.FlagSet { f := flag.NewFlagSet(n, flag.ContinueOnError) f.BoolVar(&m.input, "input", true, "input") f.Var((*FlagTypedKV)(&m.variables), "var", "variables") f.Var((*FlagKVFile)(&m.variables), "var-file", "variable file") f.Var((*FlagStringSlice)(&m.targets), "target", "resource to target") if m.autoKey != "" { f.Var((*FlagKVFile)(&m.autoVariables), m.autoKey, "variable file") } // Advanced (don't need documentation, or unlikely to be set) f.BoolVar(&m.shadow, "shadow", true, "shadow graph") // Experimental features experiment.Flag(f) // Create an io.Writer that writes to our Ui properly for errors. // This is kind of a hack, but it does the job. Basically: create // a pipe, use a scanner to break it into lines, and output each line // to the UI. Do this forever. errR, errW := io.Pipe() errScanner := bufio.NewScanner(errR) go func() { for errScanner.Scan() { m.Ui.Error(errScanner.Text()) } }() f.SetOutput(errW) // Set the default Usage to empty f.Usage = func() {} return f } // moduleStorage returns the module.Storage implementation used to store // modules for commands. func (m *Meta) moduleStorage(root string) getter.Storage { return &uiModuleStorage{ Storage: &getter.FolderStorage{ StorageDir: filepath.Join(root, "modules"), }, Ui: m.Ui, } } // process will process the meta-parameters out of the arguments. This // will potentially modify the args in-place. It will return the resulting // slice. // // vars says whether or not we support variables. func (m *Meta) process(args []string, vars bool) []string { // We do this so that we retain the ability to technically call // process multiple times, even if we have no plans to do so if m.oldUi != nil { m.Ui = m.oldUi } // Set colorization m.color = m.Color for i, v := range args { if v == "-no-color" { m.color = false m.Color = false args = append(args[:i], args[i+1:]...) break } } // Set the UI m.oldUi = m.Ui m.Ui = &cli.ConcurrentUi{ Ui: &ColorizeUi{ Colorize: m.Colorize(), ErrorColor: "[red]", WarnColor: "[yellow]", Ui: m.oldUi, }, } // If we support vars and the default var file exists, add it to // the args... m.autoKey = "" if vars { if _, err := os.Stat(DefaultVarsFilename); err == nil { m.autoKey = "var-file-default" args = append(args, "", "") copy(args[2:], args[0:]) args[0] = "-" + m.autoKey args[1] = DefaultVarsFilename } if _, err := os.Stat(DefaultVarsFilename + ".json"); err == nil { m.autoKey = "var-file-default" args = append(args, "", "") copy(args[2:], args[0:]) args[0] = "-" + m.autoKey args[1] = DefaultVarsFilename + ".json" } } return args } // uiHook returns the UiHook to use with the context. func (m *Meta) uiHook() *UiHook { return &UiHook{ Colorize: m.Colorize(), Ui: m.Ui, } } const ( // ModuleDepthDefault is the default value for // module depth, which can be overridden by flag // or env var ModuleDepthDefault = -1 // ModuleDepthEnvVar is the name of the environment variable that can be used to set module depth. ModuleDepthEnvVar = "TF_MODULE_DEPTH" ) func (m *Meta) addModuleDepthFlag(flags *flag.FlagSet, moduleDepth *int) { flags.IntVar(moduleDepth, "module-depth", ModuleDepthDefault, "module-depth") if envVar := os.Getenv(ModuleDepthEnvVar); envVar != "" { if md, err := strconv.Atoi(envVar); err == nil { *moduleDepth = md } } } // outputShadowError outputs the error from ctx.ShadowError. If the // error is nil then nothing happens. If output is false then it isn't // outputted to the user (you can define logic to guard against outputting). func (m *Meta) outputShadowError(err error, output bool) bool { // Do nothing if no error if err == nil { return false } // If not outputting, do nothing if !output { return false } // Output! m.Ui.Output(m.Colorize().Color(fmt.Sprintf( "[reset][bold][yellow]\nExperimental feature failure! Please report a bug.\n\n"+ "This is not an error. Your Terraform operation completed successfully.\n"+ "Your real infrastructure is unaffected by this message.\n\n"+ "[reset][yellow]While running, Terraform sometimes tests experimental features in the\n"+ "background. These features cannot affect real state and never touch\n"+ "real infrastructure. If the features work properly, you see nothing.\n"+ "If the features fail, this message appears.\n\n"+ "The following failures happened while running experimental features.\n"+ "Please report a Terraform bug so that future Terraform versions that\n"+ "enable these features can be improved!\n\n"+ "You can report an issue at: https://github.com/hashicorp/terraform/issues\n\n"+ "%s\n\n"+ "This is not an error. Your terraform operation completed successfully\n"+ "and your real infrastructure is unaffected by this message.", err, ))) return true } // contextOpts are the options used to load a context from a command. type contextOpts struct { // Path to the directory where the root module is. // // PathEmptyOk, when set, will allow paths that have no Terraform // configurations. The result in that case will be an empty module. Path string PathEmptyOk bool // StatePath is the path to the state file. If this is empty, then // no state will be loaded. It is also okay for this to be a path to // a file that doesn't exist; it is assumed that this means that there // is simply no state. StatePath string // GetMode is the module.GetMode to use when loading the module tree. GetMode module.GetMode // Set to true when running a destroy plan/apply. Destroy bool // Number of concurrent operations allowed Parallelism int }