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244 lines
7.6 KiB
Go
244 lines
7.6 KiB
Go
// nolint: gofmt
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// Copyright 2009 The Go Authors. All rights reserved.
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// Dehydrated certificate modifications Copyright 2015-2017 Jeremy Rand. All
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// rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Generate a self-signed X.509 certificate for a TLS server. Outputs to
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// 'cert.pem' and 'key.pem' and will overwrite existing files.
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// This code has been modified from the stock Go code to generate
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// "dehydrated certificates", suitable for inclusion in a Namecoin name.
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// Last rebased against Go 1.8.3.
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// Future rebases need to rebase both the main flow and the falseHost flow.
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package main
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import (
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"bytes"
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"crypto/ecdsa"
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"crypto/elliptic"
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"crypto/rand"
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"crypto/rsa"
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//"crypto/x509"
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"crypto/x509/pkix"
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"encoding/base64"
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"encoding/pem"
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"flag"
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"fmt"
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"github.com/namecoin/ncdns/certdehydrate"
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"github.com/namecoin/ncdns/x509"
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"log"
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"math/big"
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//"net"
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"os"
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//"strings"
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"time"
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)
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var (
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//host = flag.String("host", "", "Comma-separated hostnames and IPs to generate a certificate for")
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host = flag.String("host", "", "Hostname to generate a certificate for (only use one)")
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validFrom = flag.String("start-date", "", "Creation date formatted as Jan 1 15:04:05 2011")
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validFor = flag.Duration("duration", 365*24*time.Hour, "Duration that certificate is valid for")
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//isCA = flag.Bool("ca", false, "whether this cert should be its own Certificate Authority")
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//rsaBits = flag.Int("rsa-bits", 2048, "Size of RSA key to generate. Ignored if --ecdsa-curve is set")
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//ecdsaCurve = flag.String("ecdsa-curve", "", "ECDSA curve to use to generate a key. Valid values are P224, P256, P384, P521")
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ecdsaCurve = flag.String("ecdsa-curve", "P256", "ECDSA curve to use to generate a key. Valid values are P224, P256, P384, P521")
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falseHost = flag.String("false-host", "", "(Optional) Generate a false cert for this host; used to test x.509 implementations for safety regarding handling of the CA flag and KeyUsage")
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)
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func publicKey(priv interface{}) interface{} {
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switch k := priv.(type) {
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case *rsa.PrivateKey:
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return &k.PublicKey
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case *ecdsa.PrivateKey:
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return &k.PublicKey
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default:
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return nil
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}
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}
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func pemBlockForKey(priv interface{}) *pem.Block {
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switch k := priv.(type) {
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case *rsa.PrivateKey:
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return &pem.Block{Type: "RSA PRIVATE KEY", Bytes: x509.MarshalPKCS1PrivateKey(k)}
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case *ecdsa.PrivateKey:
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b, err := x509.MarshalECPrivateKey(k)
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if err != nil {
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fmt.Fprintf(os.Stderr, "Unable to marshal ECDSA private key: %v", err)
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os.Exit(2)
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}
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return &pem.Block{Type: "EC PRIVATE KEY", Bytes: b}
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default:
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return nil
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}
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}
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func main() {
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flag.Parse()
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if len(*host) == 0 {
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log.Fatalf("Missing required --host parameter")
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}
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var priv interface{}
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var err error
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switch *ecdsaCurve {
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case "":
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//priv, err = rsa.GenerateKey(rand.Reader, *rsaBits)
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log.Fatalf("Missing required --ecdsa-curve parameter")
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case "P224":
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priv, err = ecdsa.GenerateKey(elliptic.P224(), rand.Reader)
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case "P256":
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priv, err = ecdsa.GenerateKey(elliptic.P256(), rand.Reader)
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case "P384":
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priv, err = ecdsa.GenerateKey(elliptic.P384(), rand.Reader)
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case "P521":
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priv, err = ecdsa.GenerateKey(elliptic.P521(), rand.Reader)
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default:
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fmt.Fprintf(os.Stderr, "Unrecognized elliptic curve: %q", *ecdsaCurve)
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os.Exit(1)
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}
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if err != nil {
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log.Fatalf("failed to generate private key: %s", err)
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}
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var notBefore time.Time
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if len(*validFrom) == 0 {
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notBefore = time.Now()
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} else {
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notBefore, err = time.Parse("Jan 2 15:04:05 2006", *validFrom)
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if err != nil {
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fmt.Fprintf(os.Stderr, "Failed to parse creation date: %s\n", err)
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os.Exit(1)
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}
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}
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notAfter := notBefore.Add(*validFor)
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timestampPrecision := int64(5 * 60)
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notBeforeFloored := time.Unix((notBefore.Unix()/timestampPrecision)*timestampPrecision, 0)
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notAfterFloored := time.Unix((notAfter.Unix()/timestampPrecision)*timestampPrecision, 0)
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//serialNumberLimit := new(big.Int).Lsh(big.NewInt(1), 128)
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//serialNumber, err := rand.Int(rand.Reader, serialNumberLimit)
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// Serial components
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pubkeyBytes, err := x509.MarshalPKIXPublicKey(publicKey(priv))
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if err != nil {
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log.Fatalf("failed to marshal public key: %s", err)
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}
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pubkeyB64 := base64.StdEncoding.EncodeToString(pubkeyBytes)
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notBeforeScaled := notBeforeFloored.Unix() / timestampPrecision
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notAfterScaled := notAfterFloored.Unix() / timestampPrecision
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// Calculate serial
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serialDehydrated := certdehydrate.DehydratedCertificate{
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PubkeyB64: pubkeyB64,
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NotBeforeScaled: notBeforeScaled,
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NotAfterScaled: notAfterScaled,
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}
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serialNumber := big.NewInt(1)
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serialNumberBytes, err := serialDehydrated.SerialNumber(*host)
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if err != nil {
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log.Fatalf("failed to generate serial number: %s", err)
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}
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serialNumber.SetBytes(serialNumberBytes)
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template := x509.Certificate{
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SerialNumber: serialNumber,
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Subject: pkix.Name{
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//Organization: []string{"Acme Co"},
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CommonName: *host,
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SerialNumber: "Namecoin TLS Certificate",
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},
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//NotBefore: notBefore,
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NotBefore: notBeforeFloored,
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//NotAfter: notAfter,
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NotAfter: notAfterFloored,
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// x509.KeyUsageKeyEncipherment is used for RSA key exchange,
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// but not DHE/ECDHE key exchange. Since everyone should be
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// using ECDHE (due to forward secrecy), we disallow
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// x509.KeyUsageKeyEncipherment in our template.
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//KeyUsage: x509.KeyUsageKeyEncipherment | x509.KeyUsageDigitalSignature,
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KeyUsage: x509.KeyUsageDigitalSignature,
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ExtKeyUsage: []x509.ExtKeyUsage{x509.ExtKeyUsageServerAuth},
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BasicConstraintsValid: true,
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}
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//hosts := strings.Split(*host, ",")
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//for _, h := range hosts {
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// if ip := net.ParseIP(h); ip != nil {
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// template.IPAddresses = append(template.IPAddresses, ip)
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// } else {
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// template.DNSNames = append(template.DNSNames, h)
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template.DNSNames = append(template.DNSNames, *host)
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// }
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//}
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//if *isCA {
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// template.IsCA = true
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// template.KeyUsage |= x509.KeyUsageCertSign
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//}
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derBytes, err := x509.CreateCertificate(rand.Reader, &template, &template, publicKey(priv), priv)
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if err != nil {
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log.Fatalf("Failed to create certificate: %s", err)
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}
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certOut, err := os.Create("cert.pem")
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if err != nil {
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log.Fatalf("failed to open cert.pem for writing: %s", err)
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}
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pem.Encode(certOut, &pem.Block{Type: "CERTIFICATE", Bytes: derBytes})
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certOut.Close()
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log.Print("written cert.pem\n")
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keyOut, err := os.OpenFile("key.pem", os.O_WRONLY|os.O_CREATE|os.O_TRUNC, 0600)
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if err != nil {
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log.Print("failed to open key.pem for writing:", err)
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return
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}
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pem.Encode(keyOut, pemBlockForKey(priv))
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keyOut.Close()
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log.Print("written key.pem\n")
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parsedResult, err := x509.ParseCertificate(derBytes)
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if err != nil {
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log.Fatal("failed to parse output cert: ", err)
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}
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dehydrated, err := certdehydrate.DehydrateCert(parsedResult)
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if err != nil {
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log.Fatal("failed to dehydrate result cert: ", err)
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}
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rehydrated, err := certdehydrate.RehydrateCert(dehydrated)
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if err != nil {
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log.Fatal("failed to rehydrate result cert: ", err)
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}
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rehydratedDerBytes, err := certdehydrate.FillRehydratedCertTemplate(*rehydrated, *host)
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if err != nil {
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log.Fatal("failed to fill rehydrated result cert: ", err)
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}
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if !bytes.Equal(derBytes, rehydratedDerBytes) {
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log.Fatal("ERROR: The cert did not rehydrate to an identical form. This is a bug; do not use the generated certificate.")
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}
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log.Print("Your Namecoin cert is: {\"d8\":", dehydrated, "}")
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log.Print("SUCCESS: The cert rehydrated to an identical form. Place the generated files in your HTTPS server, and place the above JSON in the \"tls\" field for your Namecoin name.")
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if len(*falseHost) > 0 {
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doFalseHost(template, priv)
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}
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}
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