mirror of
https://github.com/go-acme/lego.git
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283 lines
7.6 KiB
Go
283 lines
7.6 KiB
Go
package certcrypto
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import (
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"crypto"
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"crypto/ecdsa"
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"crypto/ed25519"
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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/asn1"
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"encoding/pem"
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"errors"
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"fmt"
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"math/big"
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"strings"
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"time"
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"golang.org/x/crypto/ocsp"
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)
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// Constants for all key types we support.
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const (
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EC256 = KeyType("P256")
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EC384 = KeyType("P384")
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RSA2048 = KeyType("2048")
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RSA4096 = KeyType("4096")
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RSA8192 = KeyType("8192")
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)
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const (
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// OCSPGood means that the certificate is valid.
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OCSPGood = ocsp.Good
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// OCSPRevoked means that the certificate has been deliberately revoked.
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OCSPRevoked = ocsp.Revoked
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// OCSPUnknown means that the OCSP responder doesn't know about the certificate.
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OCSPUnknown = ocsp.Unknown
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// OCSPServerFailed means that the OCSP responder failed to process the request.
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OCSPServerFailed = ocsp.ServerFailed
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)
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// Constants for OCSP must staple
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var (
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tlsFeatureExtensionOID = asn1.ObjectIdentifier{1, 3, 6, 1, 5, 5, 7, 1, 24}
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ocspMustStapleFeature = []byte{0x30, 0x03, 0x02, 0x01, 0x05}
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)
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// KeyType represents the key algo as well as the key size or curve to use.
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type KeyType string
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type DERCertificateBytes []byte
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// ParsePEMBundle parses a certificate bundle from top to bottom and returns
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// a slice of x509 certificates. This function will error if no certificates are found.
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func ParsePEMBundle(bundle []byte) ([]*x509.Certificate, error) {
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var certificates []*x509.Certificate
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var certDERBlock *pem.Block
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for {
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certDERBlock, bundle = pem.Decode(bundle)
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if certDERBlock == nil {
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break
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}
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if certDERBlock.Type == "CERTIFICATE" {
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cert, err := x509.ParseCertificate(certDERBlock.Bytes)
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if err != nil {
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return nil, err
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}
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certificates = append(certificates, cert)
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}
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}
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if len(certificates) == 0 {
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return nil, errors.New("no certificates were found while parsing the bundle")
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}
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return certificates, nil
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}
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// ParsePEMPrivateKey parses a private key from key, which is a PEM block.
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// Borrowed from Go standard library, to handle various private key and PEM block types.
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// https://github.com/golang/go/blob/693748e9fa385f1e2c3b91ca9acbb6c0ad2d133d/src/crypto/tls/tls.go#L291-L308
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// https://github.com/golang/go/blob/693748e9fa385f1e2c3b91ca9acbb6c0ad2d133d/src/crypto/tls/tls.go#L238)
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func ParsePEMPrivateKey(key []byte) (crypto.PrivateKey, error) {
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keyBlockDER, _ := pem.Decode(key)
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if keyBlockDER.Type != "PRIVATE KEY" && !strings.HasSuffix(keyBlockDER.Type, " PRIVATE KEY") {
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return nil, fmt.Errorf("unknown PEM header %q", keyBlockDER.Type)
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}
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if key, err := x509.ParsePKCS1PrivateKey(keyBlockDER.Bytes); err == nil {
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return key, nil
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}
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if key, err := x509.ParsePKCS8PrivateKey(keyBlockDER.Bytes); err == nil {
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switch key := key.(type) {
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case *rsa.PrivateKey, *ecdsa.PrivateKey, ed25519.PrivateKey:
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return key, nil
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default:
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return nil, fmt.Errorf("found unknown private key type in PKCS#8 wrapping: %T", key)
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}
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}
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if key, err := x509.ParseECPrivateKey(keyBlockDER.Bytes); err == nil {
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return key, nil
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}
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return nil, errors.New("failed to parse private key")
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}
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func GeneratePrivateKey(keyType KeyType) (crypto.PrivateKey, error) {
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switch keyType {
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case EC256:
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return ecdsa.GenerateKey(elliptic.P256(), rand.Reader)
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case EC384:
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return ecdsa.GenerateKey(elliptic.P384(), rand.Reader)
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case RSA2048:
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return rsa.GenerateKey(rand.Reader, 2048)
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case RSA4096:
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return rsa.GenerateKey(rand.Reader, 4096)
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case RSA8192:
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return rsa.GenerateKey(rand.Reader, 8192)
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}
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return nil, fmt.Errorf("invalid KeyType: %s", keyType)
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}
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func GenerateCSR(privateKey crypto.PrivateKey, domain string, san []string, mustStaple bool) ([]byte, error) {
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template := x509.CertificateRequest{
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Subject: pkix.Name{CommonName: domain},
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DNSNames: san,
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}
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if mustStaple {
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template.ExtraExtensions = append(template.ExtraExtensions, pkix.Extension{
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Id: tlsFeatureExtensionOID,
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Value: ocspMustStapleFeature,
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})
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}
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return x509.CreateCertificateRequest(rand.Reader, &template, privateKey)
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}
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func PEMEncode(data interface{}) []byte {
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return pem.EncodeToMemory(PEMBlock(data))
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}
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func PEMBlock(data interface{}) *pem.Block {
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var pemBlock *pem.Block
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switch key := data.(type) {
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case *ecdsa.PrivateKey:
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keyBytes, _ := x509.MarshalECPrivateKey(key)
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pemBlock = &pem.Block{Type: "EC PRIVATE KEY", Bytes: keyBytes}
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case *rsa.PrivateKey:
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pemBlock = &pem.Block{Type: "RSA PRIVATE KEY", Bytes: x509.MarshalPKCS1PrivateKey(key)}
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case *x509.CertificateRequest:
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pemBlock = &pem.Block{Type: "CERTIFICATE REQUEST", Bytes: key.Raw}
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case DERCertificateBytes:
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pemBlock = &pem.Block{Type: "CERTIFICATE", Bytes: []byte(data.(DERCertificateBytes))}
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}
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return pemBlock
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}
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func pemDecode(data []byte) (*pem.Block, error) {
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pemBlock, _ := pem.Decode(data)
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if pemBlock == nil {
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return nil, fmt.Errorf("PEM decode did not yield a valid block. Is the certificate in the right format?")
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}
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return pemBlock, nil
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}
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func PemDecodeTox509CSR(pem []byte) (*x509.CertificateRequest, error) {
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pemBlock, err := pemDecode(pem)
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if pemBlock == nil {
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return nil, err
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}
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if pemBlock.Type != "CERTIFICATE REQUEST" {
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return nil, fmt.Errorf("PEM block is not a certificate request")
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}
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return x509.ParseCertificateRequest(pemBlock.Bytes)
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}
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// ParsePEMCertificate returns Certificate from a PEM encoded certificate.
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// The certificate has to be PEM encoded. Any other encodings like DER will fail.
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func ParsePEMCertificate(cert []byte) (*x509.Certificate, error) {
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pemBlock, err := pemDecode(cert)
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if pemBlock == nil {
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return nil, err
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}
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// from a DER encoded certificate
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return x509.ParseCertificate(pemBlock.Bytes)
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}
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func ExtractDomains(cert *x509.Certificate) []string {
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var domains []string
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if cert.Subject.CommonName != "" {
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domains = append(domains, cert.Subject.CommonName)
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}
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// Check for SAN certificate
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for _, sanDomain := range cert.DNSNames {
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if sanDomain == cert.Subject.CommonName {
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continue
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}
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domains = append(domains, sanDomain)
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}
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return domains
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}
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func ExtractDomainsCSR(csr *x509.CertificateRequest) []string {
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var domains []string
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if csr.Subject.CommonName != "" {
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domains = append(domains, csr.Subject.CommonName)
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}
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// loop over the SubjectAltName DNS names
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for _, sanName := range csr.DNSNames {
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if containsSAN(domains, sanName) {
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// Duplicate; skip this name
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continue
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}
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// Name is unique
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domains = append(domains, sanName)
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}
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return domains
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}
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func containsSAN(domains []string, sanName string) bool {
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for _, existingName := range domains {
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if existingName == sanName {
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return true
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}
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}
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return false
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}
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func GeneratePemCert(privateKey *rsa.PrivateKey, domain string, extensions []pkix.Extension) ([]byte, error) {
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derBytes, err := generateDerCert(privateKey, time.Time{}, domain, extensions)
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if err != nil {
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return nil, err
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}
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return pem.EncodeToMemory(&pem.Block{Type: "CERTIFICATE", Bytes: derBytes}), nil
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}
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func generateDerCert(privateKey *rsa.PrivateKey, expiration time.Time, domain string, extensions []pkix.Extension) ([]byte, error) {
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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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if err != nil {
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return nil, err
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}
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if expiration.IsZero() {
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expiration = time.Now().Add(365)
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}
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template := x509.Certificate{
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SerialNumber: serialNumber,
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Subject: pkix.Name{
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CommonName: "ACME Challenge TEMP",
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},
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NotBefore: time.Now(),
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NotAfter: expiration,
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KeyUsage: x509.KeyUsageKeyEncipherment,
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BasicConstraintsValid: true,
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DNSNames: []string{domain},
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ExtraExtensions: extensions,
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}
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return x509.CreateCertificate(rand.Reader, &template, &template, &privateKey.PublicKey, privateKey)
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}
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