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tailscale/release/dist/cli/cli.go

346 lines
10 KiB
Go

// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
// Package cli provides the skeleton of a CLI for building release packages.
package cli
import (
"context"
"encoding/binary"
"errors"
"flag"
"fmt"
"io"
"os"
"path/filepath"
"strings"
"time"
"github.com/peterbourgon/ff/v3/ffcli"
"tailscale.com/clientupdate/distsign"
"tailscale.com/release/dist"
)
// CLI returns a CLI root command to build release packages.
//
// getTargets is a function that gets run in the Exec function of commands that
// need to know the target list. Its execution is deferred in this way to allow
// customization of command FlagSets with flags that influence the target list.
func CLI(getTargets func() ([]dist.Target, error)) *ffcli.Command {
return &ffcli.Command{
Name: "dist",
ShortUsage: "dist [flags] <command> [command flags]",
ShortHelp: "Build tailscale release packages for distribution",
LongHelp: `For help on subcommands, add --help after: "dist list --help".`,
Subcommands: []*ffcli.Command{
{
Name: "list",
Exec: func(ctx context.Context, args []string) error {
targets, err := getTargets()
if err != nil {
return err
}
return runList(ctx, args, targets)
},
ShortUsage: "dist list [target filters]",
ShortHelp: "List all available release targets.",
LongHelp: strings.TrimSpace(`
If filters are provided, only targets matching at least one filter are listed.
Filters can use glob patterns (* and ?).
`),
},
{
Name: "build",
Exec: func(ctx context.Context, args []string) error {
targets, err := getTargets()
if err != nil {
return err
}
return runBuild(ctx, args, targets)
},
ShortUsage: "dist build [target filters]",
ShortHelp: "Build release files",
FlagSet: (func() *flag.FlagSet {
fs := flag.NewFlagSet("build", flag.ExitOnError)
fs.StringVar(&buildArgs.manifest, "manifest", "", "manifest file to write")
fs.BoolVar(&buildArgs.verbose, "verbose", false, "verbose logging")
fs.StringVar(&buildArgs.webClientRoot, "web-client-root", "", "path to root of web client source to build")
return fs
})(),
LongHelp: strings.TrimSpace(`
If filters are provided, only targets matching at least one filter are built.
Filters can use glob patterns (* and ?).
`),
},
{
Name: "gen-key",
Exec: func(ctx context.Context, args []string) error {
return runGenKey(ctx)
},
ShortUsage: "dist gen-key",
ShortHelp: "Generate root or signing key pair",
FlagSet: (func() *flag.FlagSet {
fs := flag.NewFlagSet("gen-key", flag.ExitOnError)
fs.BoolVar(&genKeyArgs.root, "root", false, "generate a root key")
fs.BoolVar(&genKeyArgs.signing, "signing", false, "generate a signing key")
fs.StringVar(&genKeyArgs.privPath, "priv-path", "private-key.pem", "output path for the private key")
fs.StringVar(&genKeyArgs.pubPath, "pub-path", "public-key.pem", "output path for the public key")
return fs
})(),
},
{
Name: "sign-key",
Exec: func(ctx context.Context, args []string) error {
return runSignKey(ctx)
},
ShortUsage: "dist sign-key",
ShortHelp: "Sign signing keys with a root key",
FlagSet: (func() *flag.FlagSet {
fs := flag.NewFlagSet("sign-key", flag.ExitOnError)
fs.StringVar(&signKeyArgs.rootPrivPath, "root-priv-path", "root-private-key.pem", "path to the root private key to sign with")
fs.StringVar(&signKeyArgs.signPubPath, "sign-pub-path", "signing-public-keys.pem", "path to the signing public key bundle to sign; the bundle should include all active signing keys")
fs.StringVar(&signKeyArgs.sigPath, "sig-path", "signature.bin", "oputput path for the signature")
return fs
})(),
},
{
Name: "verify-key-signature",
Exec: func(ctx context.Context, args []string) error {
return runVerifyKeySignature(ctx)
},
ShortUsage: "dist verify-key-signature",
ShortHelp: "Verify a root signture of the signing keys' bundle",
FlagSet: (func() *flag.FlagSet {
fs := flag.NewFlagSet("verify-key-signature", flag.ExitOnError)
fs.StringVar(&verifyKeySignatureArgs.rootPubPath, "root-pub-path", "root-public-key.pem", "path to the root public key; this can be a bundle of multiple keys")
fs.StringVar(&verifyKeySignatureArgs.signPubPath, "sign-pub-path", "", "path to the signing public key bundle that was signed")
fs.StringVar(&verifyKeySignatureArgs.sigPath, "sig-path", "signature.bin", "path to the signature file")
return fs
})(),
},
{
Name: "verify-package-signature",
Exec: func(ctx context.Context, args []string) error {
return runVerifyPackageSignature(ctx)
},
ShortUsage: "dist verify-package-signature",
ShortHelp: "Verify a package signture using a signing key",
FlagSet: (func() *flag.FlagSet {
fs := flag.NewFlagSet("verify-package-signature", flag.ExitOnError)
fs.StringVar(&verifyPackageSignatureArgs.signPubPath, "sign-pub-path", "signing-public-key.pem", "path to the signing public key; this can be a bundle of multiple keys")
fs.StringVar(&verifyPackageSignatureArgs.packagePath, "package-path", "", "path to the package that was signed")
fs.StringVar(&verifyPackageSignatureArgs.sigPath, "sig-path", "signature.bin", "path to the signature file")
return fs
})(),
},
},
Exec: func(context.Context, []string) error { return flag.ErrHelp },
}
}
func runList(ctx context.Context, filters []string, targets []dist.Target) error {
if len(filters) == 0 {
filters = []string{"all"}
}
tgts, err := dist.FilterTargets(targets, filters)
if err != nil {
return err
}
for _, tgt := range tgts {
fmt.Println(tgt)
}
return nil
}
var buildArgs struct {
manifest string
verbose bool
webClientRoot string
}
func runBuild(ctx context.Context, filters []string, targets []dist.Target) error {
tgts, err := dist.FilterTargets(targets, filters)
if err != nil {
return err
}
if len(tgts) == 0 {
return errors.New("no targets matched (did you mean 'dist build all'?)")
}
st := time.Now()
wd, err := os.Getwd()
if err != nil {
return fmt.Errorf("getting working directory: %w", err)
}
b, err := dist.NewBuild(wd, filepath.Join(wd, "dist"))
if err != nil {
return fmt.Errorf("creating build context: %w", err)
}
defer b.Close()
b.Verbose = buildArgs.verbose
b.WebClientSource = buildArgs.webClientRoot
out, err := b.Build(tgts)
if err != nil {
return fmt.Errorf("building targets: %w", err)
}
if buildArgs.manifest != "" {
// Make the built paths relative to the manifest file.
manifest, err := filepath.Abs(buildArgs.manifest)
if err != nil {
return fmt.Errorf("getting absolute path of manifest: %w", err)
}
for i := range out {
if !filepath.IsAbs(out[i]) {
out[i] = filepath.Join(b.Out, out[i])
}
rel, err := filepath.Rel(filepath.Dir(manifest), out[i])
if err != nil {
return fmt.Errorf("making path relative: %w", err)
}
out[i] = rel
}
if err := os.WriteFile(manifest, []byte(strings.Join(out, "\n")), 0644); err != nil {
return fmt.Errorf("writing manifest: %w", err)
}
}
fmt.Println("Done! Took", time.Since(st))
return nil
}
var genKeyArgs struct {
root bool
signing bool
privPath string
pubPath string
}
func runGenKey(ctx context.Context) error {
var pub, priv []byte
var err error
switch {
case genKeyArgs.root && genKeyArgs.signing:
return errors.New("only one of --root or --signing can be set")
case !genKeyArgs.root && !genKeyArgs.signing:
return errors.New("set either --root or --signing")
case genKeyArgs.root:
priv, pub, err = distsign.GenerateRootKey()
case genKeyArgs.signing:
priv, pub, err = distsign.GenerateSigningKey()
}
if err != nil {
return err
}
if err := os.WriteFile(genKeyArgs.privPath, priv, 0400); err != nil {
return fmt.Errorf("failed writing private key: %w", err)
}
fmt.Println("wrote private key to", genKeyArgs.privPath)
if err := os.WriteFile(genKeyArgs.pubPath, pub, 0400); err != nil {
return fmt.Errorf("failed writing public key: %w", err)
}
fmt.Println("wrote public key to", genKeyArgs.pubPath)
return nil
}
var signKeyArgs struct {
rootPrivPath string
signPubPath string
sigPath string
}
func runSignKey(ctx context.Context) error {
rkRaw, err := os.ReadFile(signKeyArgs.rootPrivPath)
if err != nil {
return err
}
rk, err := distsign.ParseRootKey(rkRaw)
if err != nil {
return err
}
bundle, err := os.ReadFile(signKeyArgs.signPubPath)
if err != nil {
return err
}
sig, err := rk.SignSigningKeys(bundle)
if err != nil {
return err
}
if err := os.WriteFile(signKeyArgs.sigPath, sig, 0400); err != nil {
return fmt.Errorf("failed writing signature file: %w", err)
}
fmt.Println("wrote signature to", signKeyArgs.sigPath)
return nil
}
var verifyKeySignatureArgs struct {
rootPubPath string
signPubPath string
sigPath string
}
func runVerifyKeySignature(ctx context.Context) error {
args := verifyKeySignatureArgs
rootPubBundle, err := os.ReadFile(args.rootPubPath)
if err != nil {
return err
}
rootPubs, err := distsign.ParseRootKeyBundle(rootPubBundle)
if err != nil {
return fmt.Errorf("parsing %q: %w", args.rootPubPath, err)
}
signPubBundle, err := os.ReadFile(args.signPubPath)
if err != nil {
return err
}
sig, err := os.ReadFile(args.sigPath)
if err != nil {
return err
}
if !distsign.VerifyAny(rootPubs, signPubBundle, sig) {
return errors.New("signature not valid")
}
fmt.Println("signature ok")
return nil
}
var verifyPackageSignatureArgs struct {
signPubPath string
packagePath string
sigPath string
}
func runVerifyPackageSignature(ctx context.Context) error {
args := verifyPackageSignatureArgs
signPubBundle, err := os.ReadFile(args.signPubPath)
if err != nil {
return err
}
signPubs, err := distsign.ParseSigningKeyBundle(signPubBundle)
if err != nil {
return fmt.Errorf("parsing %q: %w", args.signPubPath, err)
}
pkg, err := os.Open(args.packagePath)
if err != nil {
return err
}
defer pkg.Close()
pkgHash := distsign.NewPackageHash()
if _, err := io.Copy(pkgHash, pkg); err != nil {
return fmt.Errorf("reading %q: %w", args.packagePath, err)
}
hash := binary.LittleEndian.AppendUint64(pkgHash.Sum(nil), uint64(pkgHash.Len()))
sig, err := os.ReadFile(args.sigPath)
if err != nil {
return err
}
if !distsign.VerifyAny(signPubs, hash, sig) {
return errors.New("signature not valid")
}
fmt.Println("signature ok")
return nil
}