terraform/command/meta.go

package command

import (
	"bytes"
	"context"
	"errors"
	"flag"
	"fmt"
	"io/ioutil"
	"log"
	"os"
	"path/filepath"
	"strconv"
	"strings"
	"time"

	plugin "github.com/hashicorp/go-plugin"
	"github.com/hashicorp/hcl/v2"
	"github.com/hashicorp/hcl/v2/hclsyntax"
	"github.com/hashicorp/terraform-svchost/disco"
	"github.com/hashicorp/terraform/addrs"
	"github.com/hashicorp/terraform/backend"
	"github.com/hashicorp/terraform/backend/local"
	"github.com/hashicorp/terraform/command/arguments"
	"github.com/hashicorp/terraform/command/format"
	"github.com/hashicorp/terraform/command/views"
	"github.com/hashicorp/terraform/command/webbrowser"
	"github.com/hashicorp/terraform/configs/configload"
	"github.com/hashicorp/terraform/internal/getproviders"
	"github.com/hashicorp/terraform/internal/terminal"
	"github.com/hashicorp/terraform/providers"
	"github.com/hashicorp/terraform/provisioners"
	"github.com/hashicorp/terraform/terraform"
	"github.com/hashicorp/terraform/tfdiags"
	"github.com/mitchellh/cli"
	"github.com/mitchellh/colorstring"

	legacy "github.com/hashicorp/terraform/internal/legacy/terraform"
)

// Meta are the meta-options that are available on all or most commands.
type Meta struct {
	// The exported fields below should be set by anyone using a
	// command with a Meta field. These are expected to be set externally
	// (not from within the command itself).

	// OriginalWorkingDir, if set, is the actual working directory where
	// Terraform was run from. This might not be the _actual_ current working
	// directory, because users can add the -chdir=... option to the beginning
	// of their command line to ask Terraform to switch.
	//
	// Most things should just use the current working directory in order to
	// respect the user's override, but we retain this for exceptional
	// situations where we need to refer back to the original working directory
	// for some reason.
	OriginalWorkingDir string

	// Streams tracks the raw Stdout, Stderr, and Stdin handles along with
	// some basic metadata about them, such as whether each is connected to
	// a terminal, how wide the possible terminal is, etc.
	//
	// For historical reasons this might not be set in unit test code, and
	// so functions working with this field must check if it's nil and
	// do some default behavior instead if so, rather than panicking.
	Streams *terminal.Streams

	View *views.View

	Color            bool     // True if output should be colored
	GlobalPluginDirs []string // Additional paths to search for plugins
	Ui               cli.Ui   // Ui for output

	// Services provides access to remote endpoint information for
	// "terraform-native' services running at a specific user-facing hostname.
	Services *disco.Disco

	// RunningInAutomation indicates that commands are being run by an
	// automated system rather than directly at a command prompt.
	//
	// This is a hint to various command routines that it may be confusing
	// to print out messages that suggest running specific follow-up
	// commands, since the user consuming the output will not be
	// in a position to run such commands.
	//
	// The intended use-case of this flag is when Terraform is running in
	// some sort of workflow orchestration tool which is abstracting away
	// the specific commands being run.
	RunningInAutomation bool

	// CLIConfigDir is the directory from which CLI configuration files were
	// read by the caller and the directory where any changes to CLI
	// configuration files by commands should be made.
	//
	// If this is empty then no configuration directory is available and
	// commands which require one cannot proceed.
	CLIConfigDir string

	// PluginCacheDir, if non-empty, enables caching of downloaded plugins
	// into the given directory.
	PluginCacheDir string

	// ProviderSource allows determining the available versions of a provider
	// and determines where a distribution package for a particular
	// provider version can be obtained.
	ProviderSource getproviders.Source

	// OverrideDataDir, if non-empty, overrides the return value of the
	// DataDir method for situations where the local .terraform/ directory
	// is not suitable, e.g. because of a read-only filesystem.
	OverrideDataDir string

	// BrowserLauncher is used by commands that need to open a URL in a
	// web browser.
	BrowserLauncher webbrowser.Launcher

	// When this channel is closed, the command will be cancelled.
	ShutdownCh <-chan struct{}

	// ProviderDevOverrides are providers where we ignore the lock file, the
	// configured version constraints, and the local cache directory and just
	// always use exactly the path specified. This is intended to allow
	// provider developers to easily test local builds without worrying about
	// what version number they might eventually be released as, or what
	// checksums they have.
	ProviderDevOverrides map[addrs.Provider]getproviders.PackageLocalDir

	// UnmanagedProviders are a set of providers that exist as processes
	// predating Terraform, which Terraform should use but not worry about the
	// lifecycle of.
	//
	// This is essentially a more extreme version of ProviderDevOverrides where
	// Terraform doesn't even worry about how the provider server gets launched,
	// just trusting that someone else did it before running Terraform.
	UnmanagedProviders map[addrs.Provider]*plugin.ReattachConfig

	//----------------------------------------------------------
	// Protected: commands can set these
	//----------------------------------------------------------

	// Modify the data directory location. This should be accessed through the
	// DataDir method.
	dataDir string

	// pluginPath is a user defined set of directories to look for plugins.
	// This is set during init with the `-plugin-dir` flag, saved to a file in
	// the data directory.
	// This overrides all other search paths when discovering plugins.
	pluginPath []string

	// Override certain behavior for tests within this package
	testingOverrides *testingOverrides

	//----------------------------------------------------------
	// Private: do not set these
	//----------------------------------------------------------

	// configLoader is a shared configuration loader that is used by
	// LoadConfig and other commands that access configuration files.
	// It is initialized on first use.
	configLoader *configload.Loader

	// backendState is the currently active backend state
	backendState *legacy.BackendState

	// Variables for the context (private)
	variableArgs rawFlags
	input        bool

	// Targets for this context (private)
	targets     []addrs.Targetable
	targetFlags []string

	// Internal fields
	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 overridden.
	//
	// 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
	//
	// provider is to specify specific resource providers
	//
	// stateLock is set to false to disable state locking
	//
	// stateLockTimeout is the optional duration to retry a state locks locks
	// when it is already locked by another process.
	//
	// forceInitCopy suppresses confirmation for copying state data during
	// init.
	//
	// reconfigure forces init to ignore any stored configuration.
	//
	// compactWarnings (-compact-warnings) selects a more compact presentation
	// of warnings in the output when they are not accompanied by errors.
	statePath        string
	stateOutPath     string
	backupPath       string
	parallelism      int
	stateLock        bool
	stateLockTimeout time.Duration
	forceInitCopy    bool
	reconfigure      bool
	compactWarnings  bool

	// Used with the import command to allow import of state when no matching config exists.
	allowMissingConfig bool

	// Used with commands which write state to allow users to write remote
	// state even if the remote and local Terraform versions don't match.
	ignoreRemoteVersion bool
}

type testingOverrides struct {
	Providers    map[addrs.Provider]providers.Factory
	Provisioners map[string]provisioners.Factory
}

// 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 {
	colors := make(map[string]string)
	for k, v := range colorstring.DefaultColors {
		colors[k] = v
	}
	colors["purple"] = "38;5;57"

	return &colorstring.Colorize{
		Colors:  colors,
		Disable: !m.color,
		Reset:   true,
	}
}

// DataDir returns the directory where local data will be stored.
// Defaults to DefaultDataDir in the current working directory.
func (m *Meta) DataDir() string {
	if m.OverrideDataDir != "" {
		return m.OverrideDataDir
	}
	return DefaultDataDir
}

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

	return mode
}

// UIInput returns a UIInput object to be used for asking for input.
func (m *Meta) UIInput() terraform.UIInput {
	return &UIInput{
		Colorize: m.Colorize(),
	}
}

// OutputColumns returns the number of columns that normal (non-error) UI
// output should be wrapped to fill.
//
// This is the column count to use if you'll be printing your message via
// the Output or Info methods of m.Ui.
func (m *Meta) OutputColumns() int {
	if m.Streams == nil {
		// A default for unit tests that don't populate Meta fully.
		return 78
	}
	return m.Streams.Stdout.Columns()
}

// ErrorColumns returns the number of columns that error UI output should be
// wrapped to fill.
//
// This is the column count to use if you'll be printing your message via
// the Error or Warn methods of m.Ui.
func (m *Meta) ErrorColumns() int {
	if m.Streams == nil {
		// A default for unit tests that don't populate Meta fully.
		return 78
	}
	return m.Streams.Stderr.Columns()
}

// StdinPiped returns true if the input is piped.
func (m *Meta) StdinPiped() bool {
	if m.Streams == nil {
		// If we don't have m.Streams populated then we're presumably in a unit
		// test that doesn't properly populate Meta, so we'll just say the
		// output _isn't_ piped because that's the common case and so most likely
		// to be useful to a unit test.
		return false
	}
	return !m.Streams.Stdin.IsTerminal()
}

// InterruptibleContext returns a context.Context that will be cancelled
// if the process is interrupted by a platform-specific interrupt signal.
//
// As usual with cancelable contexts, the caller must always call the given
// cancel function once all operations are complete in order to make sure
// that the context resources will still be freed even if there is no
// interruption.
func (m *Meta) InterruptibleContext() (context.Context, context.CancelFunc) {
	base := context.Background()
	if m.ShutdownCh == nil {
		// If we're running in a unit testing context without a shutdown
		// channel populated then we'll return an uncancelable channel.
		return base, func() {}
	}

	ctx, cancel := context.WithCancel(base)
	go func() {
		select {
		case <-m.ShutdownCh:
			cancel()
		case <-ctx.Done():
			// finished without being interrupted
		}
	}()
	return ctx, cancel
}

// RunOperation executes the given operation on the given backend, blocking
// until that operation completes or is interrupted, and then returns
// the RunningOperation object representing the completed or
// aborted operation that is, despite the name, no longer running.
//
// An error is returned if the operation either fails to start or is cancelled.
// If the operation runs to completion then no error is returned even if the
// operation itself is unsuccessful. Use the "Result" field of the
// returned operation object to recognize operation-level failure.
func (m *Meta) RunOperation(b backend.Enhanced, opReq *backend.Operation) (*backend.RunningOperation, error) {
	if opReq.View == nil {
		panic("RunOperation called with nil View")
	}
	if opReq.ConfigDir != "" {
		opReq.ConfigDir = m.normalizePath(opReq.ConfigDir)
	}

	op, err := b.Operation(context.Background(), opReq)
	if err != nil {
		return nil, fmt.Errorf("error starting operation: %s", err)
	}

	// Wait for the operation to complete or an interrupt to occur
	select {
	case <-m.ShutdownCh:
		// gracefully stop the operation
		op.Stop()

		// Notify the user
		opReq.View.Interrupted()

		// Still get the result, since there is still one
		select {
		case <-m.ShutdownCh:
			opReq.View.FatalInterrupt()

			// cancel the operation completely
			op.Cancel()

			// the operation should return asap
			// but timeout just in case
			select {
			case <-op.Done():
			case <-time.After(5 * time.Second):
			}

			return nil, errors.New("operation canceled")

		case <-op.Done():
			// operation completed after Stop
		}
	case <-op.Done():
		// operation completed normally
	}

	return op, nil
}

// contextOpts returns the options to use to initialize a Terraform
// context with the settings from this Meta.
func (m *Meta) contextOpts() (*terraform.ContextOpts, error) {
	workspace, err := m.Workspace()
	if err != nil {
		return nil, err
	}

	var opts terraform.ContextOpts

	opts.Targets = m.targets
	opts.UIInput = m.UIInput()
	opts.Parallelism = m.parallelism

	// If testingOverrides are set, we'll skip the plugin discovery process
	// and just work with what we've been given, thus allowing the tests
	// to provide mock providers and provisioners.
	if m.testingOverrides != nil {
		opts.Providers = m.testingOverrides.Providers
		opts.Provisioners = m.testingOverrides.Provisioners
	} else {
		providerFactories, err := m.providerFactories()
		if err != nil {
			// providerFactories can fail if the plugin selections file is
			// invalid in some way, but we don't have any way to report that
			// from here so we'll just behave as if no providers are available
			// in that case. However, we will produce a warning in case this
			// shows up unexpectedly and prompts a bug report.
			// This situation shouldn't arise commonly in practice because
			// the selections file is generated programmatically.
			log.Printf("[WARN] Failed to determine selected providers: %s", err)

			// variable providerFactories may now be incomplete, which could
			// lead to errors reported downstream from here. providerFactories
			// tries to populate as many providers as possible even in an
			// error case, so that operations not using problematic providers
			// can still succeed.
		}
		opts.Providers = providerFactories
		opts.Provisioners = m.provisionerFactories()

		// Read the dependency locks so that they can be verified against the
		// provider requirements in the configuration
		lockedDependencies, diags := m.lockedDependencies()

		// If the locks file is invalid, we should fail early rather than
		// ignore it. A missing locks file will return no error.
		if diags.HasErrors() {
			return nil, diags.Err()
		}
		opts.LockedDependencies = lockedDependencies

		// If any unmanaged providers or dev overrides are enabled, they must
		// be listed in the context so that they can be ignored when verifying
		// the locks against the configuration
		opts.ProvidersInDevelopment = make(map[addrs.Provider]struct{})
		for provider := range m.UnmanagedProviders {
			opts.ProvidersInDevelopment[provider] = struct{}{}
		}
		for provider := range m.ProviderDevOverrides {
			opts.ProvidersInDevelopment[provider] = struct{}{}
		}
	}

	opts.ProviderSHA256s = m.providerPluginsLock().Read()

	opts.Meta = &terraform.ContextMeta{
		Env:                workspace,
		OriginalWorkingDir: m.OriginalWorkingDir,
	}

	return &opts, nil
}

// defaultFlagSet creates a default flag set for commands.
// See also command/arguments/default.go
func (m *Meta) defaultFlagSet(n string) *flag.FlagSet {
	f := flag.NewFlagSet(n, flag.ContinueOnError)
	f.SetOutput(ioutil.Discard)

	// Set the default Usage to empty
	f.Usage = func() {}

	return f
}

// ignoreRemoteVersionFlagSet add the ignore-remote version flag to suppress
// the error when the configured Terraform version on the remote workspace
// does not match the local Terraform version.
func (m *Meta) ignoreRemoteVersionFlagSet(n string) *flag.FlagSet {
	f := m.defaultFlagSet(n)

	f.BoolVar(&m.ignoreRemoteVersion, "ignore-remote-version", false, "continue even if remote and local Terraform versions are incompatible")

	return f
}

// extendedFlagSet adds custom flags that are mostly used by commands
// that are used to run an operation like plan or apply.
func (m *Meta) extendedFlagSet(n string) *flag.FlagSet {
	f := m.defaultFlagSet(n)

	f.BoolVar(&m.input, "input", true, "input")
	f.Var((*FlagStringSlice)(&m.targetFlags), "target", "resource to target")
	f.BoolVar(&m.compactWarnings, "compact-warnings", false, "use compact warnings")

	if m.variableArgs.items == nil {
		m.variableArgs = newRawFlags("-var")
	}
	varValues := m.variableArgs.Alias("-var")
	varFiles := m.variableArgs.Alias("-var-file")
	f.Var(varValues, "var", "variables")
	f.Var(varFiles, "var-file", "variable file")

	// commands that bypass locking will supply their own flag on this var,
	// but set the initial meta value to true as a failsafe.
	m.stateLock = true

	return f
}

// parseTargetFlags must be called for any commands supporting -target
// arguments. This method attempts to parse each -target flag into an
// addrs.Target, storing in the Meta.targets slice.
//
// If any flags cannot be parsed, we rewrap the first error diagnostic with a
// custom title to clarify the source of the error. The normal approach of
// directly returning the diags from HCL or the addrs package results in
// confusing incorrect "source" results when presented.
func (m *Meta) parseTargetFlags() tfdiags.Diagnostics {
	var diags tfdiags.Diagnostics
	m.targets = nil
	for _, tf := range m.targetFlags {
		traversal, syntaxDiags := hclsyntax.ParseTraversalAbs([]byte(tf), "", hcl.Pos{Line: 1, Column: 1})
		if syntaxDiags.HasErrors() {
			diags = diags.Append(tfdiags.Sourceless(
				tfdiags.Error,
				fmt.Sprintf("Invalid target %q", tf),
				syntaxDiags[0].Detail,
			))
			continue
		}

		target, targetDiags := addrs.ParseTarget(traversal)
		if targetDiags.HasErrors() {
			diags = diags.Append(tfdiags.Sourceless(
				tfdiags.Error,
				fmt.Sprintf("Invalid target %q", tf),
				targetDiags[0].Description().Detail,
			))
			continue
		}

		m.targets = append(m.targets, target.Subject)
	}
	return diags
}

// process will process any -no-color entries out of the arguments. This
// will potentially modify the args in-place. It will return the resulting
// slice, and update the Meta and Ui.
func (m *Meta) process(args []string) []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
	i := 0 // output index
	for _, v := range args {
		if v == "-no-color" {
			m.color = false
			m.Color = false
		} else {
			// copy and increment index
			args[i] = v
			i++
		}
	}
	args = args[:i]

	// Set the UI
	m.oldUi = m.Ui
	m.Ui = &cli.ConcurrentUi{
		Ui: &ColorizeUi{
			Colorize:   m.Colorize(),
			ErrorColor: "[red]",
			WarnColor:  "[yellow]",
			Ui:         m.oldUi,
		},
	}

	// Reconfigure the view. This is necessary for commands which use both
	// views.View and cli.Ui during the migration phase.
	if m.View != nil {
		m.View.Configure(&arguments.View{
			CompactWarnings: m.compactWarnings,
			NoColor:         !m.Color,
		})
	}

	return args
}

// uiHook returns the UiHook to use with the context.
func (m *Meta) uiHook() *views.UiHook {
	return views.NewUiHook(m.View)
}

// confirm asks a yes/no confirmation.
func (m *Meta) confirm(opts *terraform.InputOpts) (bool, error) {
	if !m.Input() {
		return false, errors.New("input is disabled")
	}

	for i := 0; i < 2; i++ {
		v, err := m.UIInput().Input(context.Background(), opts)
		if err != nil {
			return false, fmt.Errorf(
				"Error asking for confirmation: %s", err)
		}

		switch strings.ToLower(v) {
		case "no":
			return false, nil
		case "yes":
			return true, nil
		}
	}
	return false, nil
}

// showDiagnostics displays error and warning messages in the UI.
//
// "Diagnostics" here means the Diagnostics type from the tfdiag package,
// though as a convenience this function accepts anything that could be
// passed to the "Append" method on that type, converting it to Diagnostics
// before displaying it.
//
// Internally this function uses Diagnostics.Append, and so it will panic
// if given unsupported value types, just as Append does.
func (m *Meta) showDiagnostics(vals ...interface{}) {
	var diags tfdiags.Diagnostics
	diags = diags.Append(vals...)
	diags.Sort()

	if len(diags) == 0 {
		return
	}

	outputWidth := m.ErrorColumns()

	diags = diags.ConsolidateWarnings(1)

	// Since warning messages are generally competing
	if m.compactWarnings {
		// If the user selected compact warnings and all of the diagnostics are
		// warnings then we'll use a more compact representation of the warnings
		// that only includes their summaries.
		// We show full warnings if there are also errors, because a warning
		// can sometimes serve as good context for a subsequent error.
		useCompact := true
		for _, diag := range diags {
			if diag.Severity() != tfdiags.Warning {
				useCompact = false
				break
			}
		}
		if useCompact {
			msg := format.DiagnosticWarningsCompact(diags, m.Colorize())
			msg = "\n" + msg + "\nTo see the full warning notes, run Terraform without -compact-warnings.\n"
			m.Ui.Warn(msg)
			return
		}
	}

	for _, diag := range diags {
		var msg string
		if m.Color {
			msg = format.Diagnostic(diag, m.configSources(), m.Colorize(), outputWidth)
		} else {
			msg = format.DiagnosticPlain(diag, m.configSources(), outputWidth)
		}

		switch diag.Severity() {
		case tfdiags.Error:
			m.Ui.Error(msg)
		case tfdiags.Warning:
			m.Ui.Warn(msg)
		default:
			m.Ui.Output(msg)
		}
	}
}

// WorkspaceNameEnvVar is the name of the environment variable that can be used
// to set the name of the Terraform workspace, overriding the workspace chosen
// by `terraform workspace select`.
//
// Note that this environment variable is ignored by `terraform workspace new`
// and `terraform workspace delete`.
const WorkspaceNameEnvVar = "TF_WORKSPACE"

var errInvalidWorkspaceNameEnvVar = fmt.Errorf("Invalid workspace name set using %s", WorkspaceNameEnvVar)

// Workspace returns the name of the currently configured workspace, corresponding
// to the desired named state.
func (m *Meta) Workspace() (string, error) {
	current, overridden := m.WorkspaceOverridden()
	if overridden && !validWorkspaceName(current) {
		return "", errInvalidWorkspaceNameEnvVar
	}
	return current, nil
}

// WorkspaceOverridden returns the name of the currently configured workspace,
// corresponding to the desired named state, as well as a bool saying whether
// this was set via the TF_WORKSPACE environment variable.
func (m *Meta) WorkspaceOverridden() (string, bool) {
	if envVar := os.Getenv(WorkspaceNameEnvVar); envVar != "" {
		return envVar, true
	}

	envData, err := ioutil.ReadFile(filepath.Join(m.DataDir(), local.DefaultWorkspaceFile))
	current := string(bytes.TrimSpace(envData))
	if current == "" {
		current = backend.DefaultStateName
	}

	if err != nil && !os.IsNotExist(err) {
		// always return the default if we can't get a workspace name
		log.Printf("[ERROR] failed to read current workspace: %s", err)
	}

	return current, false
}

// SetWorkspace saves the given name as the current workspace in the local
// filesystem.
func (m *Meta) SetWorkspace(name string) error {
	err := os.MkdirAll(m.DataDir(), 0755)
	if err != nil {
		return err
	}

	err = ioutil.WriteFile(filepath.Join(m.DataDir(), local.DefaultWorkspaceFile), []byte(name), 0644)
	if err != nil {
		return err
	}
	return nil
}

// isAutoVarFile determines if the file ends with .auto.tfvars or .auto.tfvars.json
func isAutoVarFile(path string) bool {
	return strings.HasSuffix(path, ".auto.tfvars") ||
		strings.HasSuffix(path, ".auto.tfvars.json")
}

// FIXME: as an interim refactoring step, we apply the contents of the state
// arguments directly to the Meta object. Future work would ideally update the
// code paths which use these arguments to be passed them directly for clarity.
func (m *Meta) applyStateArguments(args *arguments.State) {
	m.stateLock = args.Lock
	m.stateLockTimeout = args.LockTimeout
	m.statePath = args.StatePath
	m.stateOutPath = args.StateOutPath
	m.backupPath = args.BackupPath
}