package main import ( "context" "crypto" "crypto/ecdsa" "crypto/elliptic" "crypto/rand" "crypto/sha1" "crypto/x509" "crypto/x509/pkix" "encoding/pem" "flag" "fmt" "math/big" "os" "runtime" "time" "github.com/pkg/errors" "github.com/smallstep/certificates/kms" "github.com/smallstep/certificates/kms/apiv1" "github.com/smallstep/certificates/kms/uri" "go.step.sm/cli-utils/fileutil" "go.step.sm/cli-utils/ui" "go.step.sm/crypto/pemutil" // Enable pkcs11. _ "github.com/smallstep/certificates/kms/pkcs11" ) // Config is a mapping of the cli flags. type Config struct { KMS string GenerateRoot bool RootObject string RootKeyObject string RootSubject string RootPath string CrtObject string CrtPath string CrtKeyObject string CrtSubject string CrtKeyPath string SSHHostKeyObject string SSHUserKeyObject string RootFile string KeyFile string Pin string NoCerts bool EnableSSH bool Force bool Extractable bool } // Validate checks the flags in the config. func (c *Config) Validate() error { switch { case c.KMS == "": return errors.New("flag `--kms` is required") case c.CrtPath == "": return errors.New("flag `--crt-cert-path` is required") case c.RootFile != "" && c.KeyFile == "": return errors.New("flag `--root-cert-file` requires flag `--root-key-file`") case c.KeyFile != "" && c.RootFile == "": return errors.New("flag `--root-key-file` requires flag `--root-cert-file`") case c.RootFile == "" && c.RootObject == "": return errors.New("one of flag `--root-cert-file` or `--root-cert-obj` is required") case c.KeyFile == "" && c.RootKeyObject == "": return errors.New("one of flag `--root-key-file` or `--root-key-obj` is required") case c.CrtKeyPath == "" && c.CrtKeyObject == "": return errors.New("one of flag `--crt-key-path` or `--crt-key-obj` is required") case c.RootFile == "" && c.GenerateRoot && c.RootKeyObject == "": return errors.New("flag `--root-gen` requires flag `--root-key-obj`") case c.RootFile == "" && c.GenerateRoot && c.RootPath == "": return errors.New("flag `--root-gen` requires `--root-cert-path`") default: if c.RootFile != "" { c.GenerateRoot = false c.RootObject = "" c.RootKeyObject = "" } if c.CrtKeyPath != "" { c.CrtObject = "" c.CrtKeyObject = "" } if !c.EnableSSH { c.SSHHostKeyObject = "" c.SSHUserKeyObject = "" } return nil } } func main() { var kmsuri string switch runtime.GOOS { case "darwin": kmsuri = "pkcs11:module-path=/usr/local/lib/pkcs11/yubihsm_pkcs11.dylib;token=YubiHSM" case "linux": kmsuri = "pkcs11:module-path=/usr/lib/x86_64-linux-gnu/pkcs11/yubihsm_pkcs11.so;token=YubiHSM" case "windows": if home, err := os.UserHomeDir(); err == nil { kmsuri = "pkcs11:module-path=" + home + "\\yubihsm2-sdk\\bin\\yubihsm_pkcs11.dll" + ";token=YubiHSM" } } var c Config flag.StringVar(&c.KMS, "kms", kmsuri, "PKCS #11 URI with the module-path and token to connect to the module.") flag.StringVar(&c.Pin, "pin", "", "PKCS #11 PIN") // Option 1: Generate new root flag.BoolVar(&c.GenerateRoot, "root-gen", true, "Enable the generation of a root key.") flag.StringVar(&c.RootSubject, "root-name", "PKCS #11 Smallstep Root", "Subject and Issuer of the root certificate.") flag.StringVar(&c.RootObject, "root-cert-obj", "pkcs11:id=7330;object=root-cert", "PKCS #11 URI with object id and label to store the root certificate.") flag.StringVar(&c.RootKeyObject, "root-key-obj", "pkcs11:id=7330;object=root-key", "PKCS #11 URI with object id and label to store the root key.") // Option 2: Read root from disk and sign intermediate flag.StringVar(&c.RootFile, "root-cert-file", "", "Path to the root certificate to use.") flag.StringVar(&c.KeyFile, "root-key-file", "", "Path to the root key to use.") // Option 3: Generate certificate signing request flag.StringVar(&c.CrtSubject, "crt-name", "PKCS #11 Smallstep Intermediate", "Subject of the intermediate certificate.") flag.StringVar(&c.CrtObject, "crt-cert-obj", "pkcs11:id=7331;object=intermediate-cert", "PKCS #11 URI with object id and label to store the intermediate certificate.") flag.StringVar(&c.CrtKeyObject, "crt-key-obj", "pkcs11:id=7331;object=intermediate-key", "PKCS #11 URI with object id and label to store the intermediate certificate.") // SSH certificates flag.BoolVar(&c.EnableSSH, "ssh", false, "Enable the creation of ssh keys.") flag.StringVar(&c.SSHHostKeyObject, "ssh-host-key", "pkcs11:id=7332;object=ssh-host-key", "PKCS #11 URI with object id and label to store the key used to sign SSH host certificates.") flag.StringVar(&c.SSHUserKeyObject, "ssh-user-key", "pkcs11:id=7333;object=ssh-user-key", "PKCS #11 URI with object id and label to store the key used to sign SSH user certificates.") // Output files flag.StringVar(&c.RootPath, "root-cert-path", "root_ca.crt", "Location to write the root certificate.") flag.StringVar(&c.CrtPath, "crt-cert-path", "intermediate_ca.crt", "Location to write the intermediate certificate.") flag.StringVar(&c.CrtKeyPath, "crt-key-path", "", "Location to write the intermediate private key.") // Others flag.BoolVar(&c.NoCerts, "no-certs", false, "Do not store certificates in the module.") flag.BoolVar(&c.Force, "force", false, "Force the delete of previous keys.") flag.BoolVar(&c.Extractable, "extractable", false, "Allow export of private keys under wrap.") flag.Usage = usage flag.Parse() if err := c.Validate(); err != nil { fatal(err) } u, err := uri.ParseWithScheme("pkcs11", c.KMS) if err != nil { fatal(err) } // Initialize windows terminal ui.Init() if u.Get("pin-value") == "" && u.Get("pin-source") == "" && c.Pin == "" { pin, err := ui.PromptPassword("What is the PKCS#11 PIN?") if err != nil { fatal(err) } c.Pin = string(pin) } k, err := kms.New(context.Background(), apiv1.Options{ Type: string(apiv1.PKCS11), URI: c.KMS, Pin: c.Pin, }) if err != nil { fatal(err) } defer func() { _ = k.Close() }() // Check if the slots are empty, fail if they are not certUris := []string{ c.RootObject, c.CrtObject, } keyUris := []string{ c.RootKeyObject, c.CrtKeyObject, c.SSHHostKeyObject, c.SSHUserKeyObject, } if !c.Force { for _, u := range certUris { if u != "" && !c.NoCerts { checkObject(k, u) checkCertificate(k, u) } } for _, u := range keyUris { if u != "" { checkObject(k, u) } } } else { deleter, ok := k.(interface { DeleteKey(uri string) error DeleteCertificate(uri string) error }) if ok { for _, u := range certUris { if u != "" && !c.NoCerts { // Some HSMs like Nitrokey will overwrite the key with the // certificate label. if err := deleter.DeleteKey(u); err != nil { fatalClose(err, k) } if err := deleter.DeleteCertificate(u); err != nil { fatalClose(err, k) } } } for _, u := range keyUris { if u != "" { if err := deleter.DeleteKey(u); err != nil { fatalClose(err, k) } } } } } if err := createPKI(k, c); err != nil { fatalClose(err, k) } // Reset windows terminal ui.Reset() } func fatal(err error) { if os.Getenv("STEPDEBUG") == "1" { fmt.Fprintf(os.Stderr, "%+v\n", err) } else { fmt.Fprintln(os.Stderr, err) } ui.Reset() os.Exit(1) } func fatalClose(err error, k kms.KeyManager) { _ = k.Close() fatal(err) } func usage() { fmt.Fprintln(os.Stderr, "Usage: step-pkcs11-init") fmt.Fprintln(os.Stderr, ` The step-pkcs11-init command initializes a public key infrastructure (PKI) to be used by step-ca. This tool is experimental and in the future it will be integrated in step cli. OPTIONS`) fmt.Fprintln(os.Stderr) flag.PrintDefaults() fmt.Fprintf(os.Stderr, ` COPYRIGHT (c) 2018-%d Smallstep Labs, Inc. `, time.Now().Year()) os.Exit(1) } func checkCertificate(k kms.KeyManager, rawuri string) { if cm, ok := k.(kms.CertificateManager); ok { if _, err := cm.LoadCertificate(&apiv1.LoadCertificateRequest{ Name: rawuri, }); err == nil { fmt.Fprintf(os.Stderr, "⚠️ Your PKCS #11 module already has a certificate on %s.\n", rawuri) fmt.Fprintln(os.Stderr, " If you want to delete it and start fresh, use `--force`.") _ = k.Close() os.Exit(1) } } } func checkObject(k kms.KeyManager, rawuri string) { if _, err := k.GetPublicKey(&apiv1.GetPublicKeyRequest{ Name: rawuri, }); err == nil { fmt.Fprintf(os.Stderr, "⚠️ Your PKCS #11 module already has a key on %s.\n", rawuri) fmt.Fprintln(os.Stderr, " If you want to delete it and start fresh, use `--force`.") _ = k.Close() os.Exit(1) } } func createPKI(k kms.KeyManager, c Config) error { var err error ui.Println("Creating PKI ...") now := time.Now() // Root Certificate var signer crypto.Signer var root *x509.Certificate switch { case c.GenerateRoot: resp, err := k.CreateKey(&apiv1.CreateKeyRequest{ Name: c.RootKeyObject, SignatureAlgorithm: apiv1.ECDSAWithSHA256, Extractable: c.Extractable, }) if err != nil { return err } signer, err = k.CreateSigner(&resp.CreateSignerRequest) if err != nil { return err } template := &x509.Certificate{ IsCA: true, NotBefore: now, NotAfter: now.Add(time.Hour * 24 * 365 * 10), KeyUsage: x509.KeyUsageCertSign | x509.KeyUsageCRLSign, BasicConstraintsValid: true, MaxPathLen: 1, MaxPathLenZero: false, Issuer: pkix.Name{CommonName: c.RootSubject}, Subject: pkix.Name{CommonName: c.RootSubject}, SerialNumber: mustSerialNumber(), SubjectKeyId: mustSubjectKeyID(resp.PublicKey), AuthorityKeyId: mustSubjectKeyID(resp.PublicKey), } b, err := x509.CreateCertificate(rand.Reader, template, template, resp.PublicKey, signer) if err != nil { return err } root, err = x509.ParseCertificate(b) if err != nil { return errors.Wrap(err, "error parsing root certificate") } if cm, ok := k.(kms.CertificateManager); ok && c.RootObject != "" && !c.NoCerts { if err := cm.StoreCertificate(&apiv1.StoreCertificateRequest{ Name: c.RootObject, Certificate: root, Extractable: c.Extractable, }); err != nil { return err } } else { c.RootObject = "" } if err := fileutil.WriteFile(c.RootPath, pem.EncodeToMemory(&pem.Block{ Type: "CERTIFICATE", Bytes: b, }), 0600); err != nil { return err } ui.PrintSelected("Root Key", resp.Name) ui.PrintSelected("Root Certificate", c.RootPath) if c.RootObject != "" { ui.PrintSelected("Root Certificate Object", c.RootObject) } case c.RootFile != "" && c.KeyFile != "": // Read Root From File root, err = pemutil.ReadCertificate(c.RootFile) if err != nil { return err } key, err := pemutil.Read(c.KeyFile) if err != nil { return err } var ok bool if signer, ok = key.(crypto.Signer); !ok { return errors.Errorf("key type '%T' does not implement a signer", key) } } // Intermediate Certificate var keyName string var publicKey crypto.PublicKey var intSigner crypto.Signer if c.CrtKeyPath != "" { priv, err := ecdsa.GenerateKey(elliptic.P256(), rand.Reader) if err != nil { return errors.Wrap(err, "error creating intermediate key") } pass, err := ui.PromptPasswordGenerate("What do you want your password to be? [leave empty and we'll generate one]", ui.WithRichPrompt()) if err != nil { return err } _, err = pemutil.Serialize(priv, pemutil.WithPassword(pass), pemutil.ToFile(c.CrtKeyPath, 0600)) if err != nil { return err } publicKey = priv.Public() intSigner = priv } else { resp, err := k.CreateKey(&apiv1.CreateKeyRequest{ Name: c.CrtKeyObject, SignatureAlgorithm: apiv1.ECDSAWithSHA256, Extractable: c.Extractable, }) if err != nil { return err } publicKey = resp.PublicKey keyName = resp.Name intSigner, err = k.CreateSigner(&resp.CreateSignerRequest) if err != nil { return err } } if root != nil { template := &x509.Certificate{ IsCA: true, NotBefore: now, NotAfter: now.Add(time.Hour * 24 * 365 * 10), KeyUsage: x509.KeyUsageCertSign | x509.KeyUsageCRLSign, BasicConstraintsValid: true, MaxPathLen: 0, MaxPathLenZero: true, Issuer: root.Subject, Subject: pkix.Name{CommonName: c.CrtSubject}, SerialNumber: mustSerialNumber(), SubjectKeyId: mustSubjectKeyID(publicKey), } b, err := x509.CreateCertificate(rand.Reader, template, root, publicKey, signer) if err != nil { return err } intermediate, err := x509.ParseCertificate(b) if err != nil { return errors.Wrap(err, "error parsing intermediate certificate") } if cm, ok := k.(kms.CertificateManager); ok && c.CrtObject != "" && !c.NoCerts { if err := cm.StoreCertificate(&apiv1.StoreCertificateRequest{ Name: c.CrtObject, Certificate: intermediate, Extractable: c.Extractable, }); err != nil { return err } } else { c.CrtObject = "" } if err := fileutil.WriteFile(c.CrtPath, pem.EncodeToMemory(&pem.Block{ Type: "CERTIFICATE", Bytes: b, }), 0600); err != nil { return err } } else { // No root available, generate CSR for external root. csrTemplate := x509.CertificateRequest{ Subject: pkix.Name{CommonName: c.CrtSubject}, SignatureAlgorithm: x509.ECDSAWithSHA256, } // step: generate the csr request csrCertificate, err := x509.CreateCertificateRequest(rand.Reader, &csrTemplate, intSigner) if err != nil { return err } if err := fileutil.WriteFile(c.CrtPath, pem.EncodeToMemory(&pem.Block{ Type: "CERTIFICATE REQUEST", Bytes: csrCertificate, }), 0600); err != nil { return err } } if c.CrtKeyPath != "" { ui.PrintSelected("Intermediate Key", c.CrtKeyPath) } else { ui.PrintSelected("Intermediate Key", keyName) } if root != nil { ui.PrintSelected("Intermediate Certificate", c.CrtPath) if c.CrtObject != "" { ui.PrintSelected("Intermediate Certificate Object", c.CrtObject) } } else { ui.PrintSelected("Intermediate Certificate Request", c.CrtPath) } if c.SSHHostKeyObject != "" { resp, err := k.CreateKey(&apiv1.CreateKeyRequest{ Name: c.SSHHostKeyObject, SignatureAlgorithm: apiv1.ECDSAWithSHA256, }) if err != nil { return err } ui.PrintSelected("SSH Host Key", resp.Name) } if c.SSHUserKeyObject != "" { resp, err := k.CreateKey(&apiv1.CreateKeyRequest{ Name: c.SSHUserKeyObject, SignatureAlgorithm: apiv1.ECDSAWithSHA256, }) if err != nil { return err } ui.PrintSelected("SSH User Key", resp.Name) } return nil } func mustSerialNumber() *big.Int { serialNumberLimit := new(big.Int).Lsh(big.NewInt(1), 128) sn, err := rand.Int(rand.Reader, serialNumberLimit) if err != nil { panic(err) } return sn } func mustSubjectKeyID(key crypto.PublicKey) []byte { b, err := x509.MarshalPKIXPublicKey(key) if err != nil { panic(err) } hash := sha1.Sum(b) return hash[:] }