package main import ( "encoding/json" "fmt" "log" "net" "os" "path/filepath" "runtime" "strings" "github.com/hashicorp/go-plugin" "github.com/hashicorp/terraform-svchost/disco" "github.com/hashicorp/terraform/internal/addrs" "github.com/hashicorp/terraform/internal/command/cliconfig" "github.com/hashicorp/terraform/internal/command/format" "github.com/hashicorp/terraform/internal/didyoumean" "github.com/hashicorp/terraform/internal/httpclient" "github.com/hashicorp/terraform/internal/logging" "github.com/hashicorp/terraform/internal/terminal" "github.com/hashicorp/terraform/version" "github.com/mattn/go-shellwords" "github.com/mitchellh/cli" "github.com/mitchellh/colorstring" backendInit "github.com/hashicorp/terraform/internal/backend/init" ) const ( // EnvCLI is the environment variable name to set additional CLI args. EnvCLI = "TF_CLI_ARGS" // The parent process will create a file to collect crash logs envTmpLogPath = "TF_TEMP_LOG_PATH" ) // ui wraps the primary output cli.Ui, and redirects Warn calls to Output // calls. This ensures that warnings are sent to stdout, and are properly // serialized within the stdout stream. type ui struct { cli.Ui } func (u *ui) Warn(msg string) { u.Ui.Output(msg) } func init() { Ui = &ui{&cli.BasicUi{ Writer: os.Stdout, ErrorWriter: os.Stderr, Reader: os.Stdin, }} } func main() { os.Exit(realMain()) } func realMain() int { defer logging.PanicHandler() var err error tmpLogPath := os.Getenv(envTmpLogPath) if tmpLogPath != "" { f, err := os.OpenFile(tmpLogPath, os.O_RDWR|os.O_APPEND, 0666) if err == nil { defer f.Close() log.Printf("[DEBUG] Adding temp file log sink: %s", f.Name()) logging.RegisterSink(f) } else { log.Printf("[ERROR] Could not open temp log file: %v", err) } } log.Printf( "[INFO] Terraform version: %s %s", Version, VersionPrerelease) for _, depMod := range version.InterestingDependencies() { log.Printf("[DEBUG] using %s %s", depMod.Path, depMod.Version) } log.Printf("[INFO] Go runtime version: %s", runtime.Version()) log.Printf("[INFO] CLI args: %#v", os.Args) if ExperimentsAllowed() { log.Printf("[INFO] This build of Terraform allows using experimental features") } streams, err := terminal.Init() if err != nil { Ui.Error(fmt.Sprintf("Failed to configure the terminal: %s", err)) return 1 } if streams.Stdout.IsTerminal() { log.Printf("[TRACE] Stdout is a terminal of width %d", streams.Stdout.Columns()) } else { log.Printf("[TRACE] Stdout is not a terminal") } if streams.Stderr.IsTerminal() { log.Printf("[TRACE] Stderr is a terminal of width %d", streams.Stderr.Columns()) } else { log.Printf("[TRACE] Stderr is not a terminal") } if streams.Stdin.IsTerminal() { log.Printf("[TRACE] Stdin is a terminal") } else { log.Printf("[TRACE] Stdin is not a terminal") } // NOTE: We're intentionally calling LoadConfig _before_ handling a possible // -chdir=... option on the command line, so that a possible relative // path in the TERRAFORM_CONFIG_FILE environment variable (though probably // ill-advised) will be resolved relative to the true working directory, // not the overridden one. config, diags := cliconfig.LoadConfig() if len(diags) > 0 { // Since we haven't instantiated a command.Meta yet, we need to do // some things manually here and use some "safe" defaults for things // that command.Meta could otherwise figure out in smarter ways. Ui.Error("There are some problems with the CLI configuration:") for _, diag := range diags { earlyColor := &colorstring.Colorize{ Colors: colorstring.DefaultColors, Disable: true, // Disable color to be conservative until we know better Reset: true, } // We don't currently have access to the source code cache for // the parser used to load the CLI config, so we can't show // source code snippets in early diagnostics. Ui.Error(format.Diagnostic(diag, nil, earlyColor, 78)) } if diags.HasErrors() { Ui.Error("As a result of the above problems, Terraform may not behave as intended.\n\n") // We continue to run anyway, since Terraform has reasonable defaults. } } // Get any configured credentials from the config and initialize // a service discovery object. The slightly awkward predeclaration of // disco is required to allow us to pass untyped nil as the creds source // when creating the source fails. Otherwise we pass a typed nil which // breaks the nil checks in the disco object var services *disco.Disco credsSrc, err := credentialsSource(config) if err == nil { services = disco.NewWithCredentialsSource(credsSrc) } else { // Most commands don't actually need credentials, and most situations // that would get us here would already have been reported by the config // loading above, so we'll just log this one as an aid to debugging // in the unlikely event that it _does_ arise. log.Printf("[WARN] Cannot initialize remote host credentials manager: %s", err) // passing (untyped) nil as the creds source is okay because the disco // object checks that and just acts as though no credentials are present. services = disco.NewWithCredentialsSource(nil) } services.SetUserAgent(httpclient.TerraformUserAgent(version.String())) providerSrc, diags := providerSource(config.ProviderInstallation, services) if len(diags) > 0 { Ui.Error("There are some problems with the provider_installation configuration:") for _, diag := range diags { earlyColor := &colorstring.Colorize{ Colors: colorstring.DefaultColors, Disable: true, // Disable color to be conservative until we know better Reset: true, } Ui.Error(format.Diagnostic(diag, nil, earlyColor, 78)) } if diags.HasErrors() { Ui.Error("As a result of the above problems, Terraform's provider installer may not behave as intended.\n\n") // We continue to run anyway, because most commands don't do provider installation. } } providerDevOverrides := providerDevOverrides(config.ProviderInstallation) // The user can declare that certain providers are being managed on // Terraform's behalf using this environment variable. This is used // primarily by the SDK's acceptance testing framework. unmanagedProviders, err := parseReattachProviders(os.Getenv("TF_REATTACH_PROVIDERS")) if err != nil { Ui.Error(err.Error()) return 1 } // Initialize the backends. backendInit.Init(services) // Get the command line args. binName := filepath.Base(os.Args[0]) args := os.Args[1:] originalWd, err := os.Getwd() if err != nil { // It would be very strange to end up here Ui.Error(fmt.Sprintf("Failed to determine current working directory: %s", err)) return 1 } // The arguments can begin with a -chdir option to ask Terraform to switch // to a different working directory for the rest of its work. If that // option is present then extractChdirOption returns a trimmed args with that option removed. overrideWd, args, err := extractChdirOption(args) if err != nil { Ui.Error(fmt.Sprintf("Invalid -chdir option: %s", err)) return 1 } if overrideWd != "" { err := os.Chdir(overrideWd) if err != nil { Ui.Error(fmt.Sprintf("Error handling -chdir option: %s", err)) return 1 } } // In tests, Commands may already be set to provide mock commands if Commands == nil { // Commands get to hold on to the original working directory here, // in case they need to refer back to it for any special reason, though // they should primarily be working with the override working directory // that we've now switched to above. initCommands(originalWd, streams, config, services, providerSrc, providerDevOverrides, unmanagedProviders) } // Run checkpoint go runCheckpoint(config) // Make sure we clean up any managed plugins at the end of this defer plugin.CleanupClients() // Build the CLI so far, we do this so we can query the subcommand. cliRunner := &cli.CLI{ Args: args, Commands: Commands, HelpFunc: helpFunc, HelpWriter: os.Stdout, } // Prefix the args with any args from the EnvCLI args, err = mergeEnvArgs(EnvCLI, cliRunner.Subcommand(), args) if err != nil { Ui.Error(err.Error()) return 1 } // Prefix the args with any args from the EnvCLI targeting this command suffix := strings.Replace(strings.Replace( cliRunner.Subcommand(), "-", "_", -1), " ", "_", -1) args, err = mergeEnvArgs( fmt.Sprintf("%s_%s", EnvCLI, suffix), cliRunner.Subcommand(), args) if err != nil { Ui.Error(err.Error()) return 1 } // We shortcut "--version" and "-v" to just show the version for _, arg := range args { if arg == "-v" || arg == "-version" || arg == "--version" { newArgs := make([]string, len(args)+1) newArgs[0] = "version" copy(newArgs[1:], args) args = newArgs break } } // Rebuild the CLI with any modified args. log.Printf("[INFO] CLI command args: %#v", args) cliRunner = &cli.CLI{ Name: binName, Args: args, Commands: Commands, HelpFunc: helpFunc, HelpWriter: os.Stdout, Autocomplete: true, AutocompleteInstall: "install-autocomplete", AutocompleteUninstall: "uninstall-autocomplete", } // Before we continue we'll check whether the requested command is // actually known. If not, we might be able to suggest an alternative // if it seems like the user made a typo. // (This bypasses the built-in help handling in cli.CLI for the situation // where a command isn't found, because it's likely more helpful to // mention what specifically went wrong, rather than just printing out // a big block of usage information.) // Check if this is being run via shell auto-complete, which uses the // binary name as the first argument and won't be listed as a subcommand. autoComplete := os.Getenv("COMP_LINE") != "" if cmd := cliRunner.Subcommand(); cmd != "" && !autoComplete { // Due to the design of cli.CLI, this special error message only works // for typos of top-level commands. For a subcommand typo, like // "terraform state posh", cmd would be "state" here and thus would // be considered to exist, and it would print out its own usage message. if _, exists := Commands[cmd]; !exists { suggestions := make([]string, 0, len(Commands)) for name := range Commands { suggestions = append(suggestions, name) } suggestion := didyoumean.NameSuggestion(cmd, suggestions) if suggestion != "" { suggestion = fmt.Sprintf(" Did you mean %q?", suggestion) } fmt.Fprintf(os.Stderr, "Terraform has no command named %q.%s\n\nTo see all of Terraform's top-level commands, run:\n terraform -help\n\n", cmd, suggestion) return 1 } } exitCode, err := cliRunner.Run() if err != nil { Ui.Error(fmt.Sprintf("Error executing CLI: %s", err.Error())) return 1 } // if we are exiting with a non-zero code, check if it was caused by any // plugins crashing if exitCode != 0 { for _, panicLog := range logging.PluginPanics() { Ui.Error(panicLog) } } return exitCode } func mergeEnvArgs(envName string, cmd string, args []string) ([]string, error) { v := os.Getenv(envName) if v == "" { return args, nil } log.Printf("[INFO] %s value: %q", envName, v) extra, err := shellwords.Parse(v) if err != nil { return nil, fmt.Errorf( "Error parsing extra CLI args from %s: %s", envName, err) } // Find the command to look for in the args. If there is a space, // we need to find the last part. search := cmd if idx := strings.LastIndex(search, " "); idx >= 0 { search = cmd[idx+1:] } // Find the index to place the flags. We put them exactly // after the first non-flag arg. idx := -1 for i, v := range args { if v == search { idx = i break } } // idx points to the exact arg that isn't a flag. We increment // by one so that all the copying below expects idx to be the // insertion point. idx++ // Copy the args newArgs := make([]string, len(args)+len(extra)) copy(newArgs, args[:idx]) copy(newArgs[idx:], extra) copy(newArgs[len(extra)+idx:], args[idx:]) return newArgs, nil } // parse information on reattaching to unmanaged providers out of a // JSON-encoded environment variable. func parseReattachProviders(in string) (map[addrs.Provider]*plugin.ReattachConfig, error) { unmanagedProviders := map[addrs.Provider]*plugin.ReattachConfig{} if in != "" { type reattachConfig struct { Protocol string ProtocolVersion int Addr struct { Network string String string } Pid int Test bool } var m map[string]reattachConfig err := json.Unmarshal([]byte(in), &m) if err != nil { return unmanagedProviders, fmt.Errorf("Invalid format for TF_REATTACH_PROVIDERS: %w", err) } for p, c := range m { a, diags := addrs.ParseProviderSourceString(p) if diags.HasErrors() { return unmanagedProviders, fmt.Errorf("Error parsing %q as a provider address: %w", a, diags.Err()) } var addr net.Addr switch c.Addr.Network { case "unix": addr, err = net.ResolveUnixAddr("unix", c.Addr.String) if err != nil { return unmanagedProviders, fmt.Errorf("Invalid unix socket path %q for %q: %w", c.Addr.String, p, err) } case "tcp": addr, err = net.ResolveTCPAddr("tcp", c.Addr.String) if err != nil { return unmanagedProviders, fmt.Errorf("Invalid TCP address %q for %q: %w", c.Addr.String, p, err) } default: return unmanagedProviders, fmt.Errorf("Unknown address type %q for %q", c.Addr.Network, p) } unmanagedProviders[a] = &plugin.ReattachConfig{ Protocol: plugin.Protocol(c.Protocol), ProtocolVersion: c.ProtocolVersion, Pid: c.Pid, Test: c.Test, Addr: addr, } } } return unmanagedProviders, nil } func extractChdirOption(args []string) (string, []string, error) { if len(args) == 0 { return "", args, nil } const argName = "-chdir" const argPrefix = argName + "=" var argValue string var argPos int for i, arg := range args { if !strings.HasPrefix(arg, "-") { // Because the chdir option is a subcommand-agnostic one, we require // it to appear before any subcommand argument, so if we find a // non-option before we find -chdir then we are finished. break } if arg == argName || arg == argPrefix { return "", args, fmt.Errorf("must include an equals sign followed by a directory path, like -chdir=example") } if strings.HasPrefix(arg, argPrefix) { argPos = i argValue = arg[len(argPrefix):] } } // When we fall out here, we'll have populated argValue with a non-empty // string if the -chdir=... option was present and valid, or left it // empty if it wasn't present. if argValue == "" { return "", args, nil } // If we did find the option then we'll need to produce a new args that // doesn't include it anymore. if argPos == 0 { // Easy case: we can just slice off the front return argValue, args[1:], nil } // Otherwise we need to construct a new array and copy to it. newArgs := make([]string, len(args)-1) copy(newArgs, args[:argPos]) copy(newArgs[argPos:], args[argPos+1:]) return argValue, newArgs, nil }