2024-05-15 23:15:00 +00:00
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// SPDX-FileCopyrightText: 2023 The Pion community <https://pion.ly>
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// SPDX-License-Identifier: MIT
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2022-03-10 09:44:48 +00:00
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//go:build !js
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// +build !js
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package webrtc
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import (
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"crypto"
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"crypto/ecdsa"
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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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"fmt"
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"math/big"
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"strings"
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"time"
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"github.com/pion/dtls/v2/pkg/crypto/fingerprint"
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"github.com/pion/webrtc/v3/pkg/rtcerr"
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)
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// Certificate represents a x509Cert used to authenticate WebRTC communications.
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type Certificate struct {
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privateKey crypto.PrivateKey
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x509Cert *x509.Certificate
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statsID string
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}
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// NewCertificate generates a new x509 compliant Certificate to be used
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// by DTLS for encrypting data sent over the wire. This method differs from
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// GenerateCertificate by allowing to specify a template x509.Certificate to
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// be used in order to define certificate parameters.
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func NewCertificate(key crypto.PrivateKey, tpl x509.Certificate) (*Certificate, error) {
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var err error
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var certDER []byte
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switch sk := key.(type) {
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case *rsa.PrivateKey:
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pk := sk.Public()
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tpl.SignatureAlgorithm = x509.SHA256WithRSA
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certDER, err = x509.CreateCertificate(rand.Reader, &tpl, &tpl, pk, sk)
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if err != nil {
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return nil, &rtcerr.UnknownError{Err: err}
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}
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case *ecdsa.PrivateKey:
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pk := sk.Public()
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tpl.SignatureAlgorithm = x509.ECDSAWithSHA256
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certDER, err = x509.CreateCertificate(rand.Reader, &tpl, &tpl, pk, sk)
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if err != nil {
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return nil, &rtcerr.UnknownError{Err: err}
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}
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default:
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return nil, &rtcerr.NotSupportedError{Err: ErrPrivateKeyType}
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}
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cert, err := x509.ParseCertificate(certDER)
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if err != nil {
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return nil, &rtcerr.UnknownError{Err: err}
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}
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return &Certificate{privateKey: key, x509Cert: cert, statsID: fmt.Sprintf("certificate-%d", time.Now().UnixNano())}, nil
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}
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// Equals determines if two certificates are identical by comparing both the
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// secretKeys and x509Certificates.
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func (c Certificate) Equals(o Certificate) bool {
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switch cSK := c.privateKey.(type) {
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case *rsa.PrivateKey:
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if oSK, ok := o.privateKey.(*rsa.PrivateKey); ok {
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if cSK.N.Cmp(oSK.N) != 0 {
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return false
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}
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return c.x509Cert.Equal(o.x509Cert)
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}
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return false
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case *ecdsa.PrivateKey:
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if oSK, ok := o.privateKey.(*ecdsa.PrivateKey); ok {
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if cSK.X.Cmp(oSK.X) != 0 || cSK.Y.Cmp(oSK.Y) != 0 {
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return false
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}
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return c.x509Cert.Equal(o.x509Cert)
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}
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return false
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default:
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return false
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}
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}
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// Expires returns the timestamp after which this certificate is no longer valid.
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func (c Certificate) Expires() time.Time {
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if c.x509Cert == nil {
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return time.Time{}
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}
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return c.x509Cert.NotAfter
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}
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// GetFingerprints returns the list of certificate fingerprints, one of which
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// is computed with the digest algorithm used in the certificate signature.
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func (c Certificate) GetFingerprints() ([]DTLSFingerprint, error) {
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fingerprintAlgorithms := []crypto.Hash{crypto.SHA256}
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res := make([]DTLSFingerprint, len(fingerprintAlgorithms))
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i := 0
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for _, algo := range fingerprintAlgorithms {
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name, err := fingerprint.StringFromHash(algo)
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if err != nil {
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2024-05-15 23:15:00 +00:00
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// nolint
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2022-03-10 09:44:48 +00:00
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return nil, fmt.Errorf("%w: %v", ErrFailedToGenerateCertificateFingerprint, err)
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}
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value, err := fingerprint.Fingerprint(c.x509Cert, algo)
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if err != nil {
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2024-05-15 23:15:00 +00:00
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// nolint
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2022-03-10 09:44:48 +00:00
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return nil, fmt.Errorf("%w: %v", ErrFailedToGenerateCertificateFingerprint, err)
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}
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res[i] = DTLSFingerprint{
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Algorithm: name,
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Value: value,
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}
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}
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return res[:i+1], nil
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}
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// GenerateCertificate causes the creation of an X.509 certificate and
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// corresponding private key.
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func GenerateCertificate(secretKey crypto.PrivateKey) (*Certificate, error) {
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// Max random value, a 130-bits integer, i.e 2^130 - 1
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maxBigInt := new(big.Int)
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/* #nosec */
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maxBigInt.Exp(big.NewInt(2), big.NewInt(130), nil).Sub(maxBigInt, big.NewInt(1))
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/* #nosec */
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serialNumber, err := rand.Int(rand.Reader, maxBigInt)
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if err != nil {
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return nil, &rtcerr.UnknownError{Err: err}
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}
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return NewCertificate(secretKey, x509.Certificate{
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Issuer: pkix.Name{CommonName: generatedCertificateOrigin},
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NotBefore: time.Now().AddDate(0, 0, -1),
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NotAfter: time.Now().AddDate(0, 1, -1),
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SerialNumber: serialNumber,
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Version: 2,
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Subject: pkix.Name{CommonName: generatedCertificateOrigin},
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})
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}
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// CertificateFromX509 creates a new WebRTC Certificate from a given PrivateKey and Certificate
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//
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// This can be used if you want to share a certificate across multiple PeerConnections
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func CertificateFromX509(privateKey crypto.PrivateKey, certificate *x509.Certificate) Certificate {
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return Certificate{privateKey, certificate, fmt.Sprintf("certificate-%d", time.Now().UnixNano())}
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}
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func (c Certificate) collectStats(report *statsReportCollector) error {
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report.Collecting()
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fingerPrintAlgo, err := c.GetFingerprints()
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if err != nil {
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return err
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}
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base64Certificate := base64.RawURLEncoding.EncodeToString(c.x509Cert.Raw)
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stats := CertificateStats{
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Timestamp: statsTimestampFrom(time.Now()),
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Type: StatsTypeCertificate,
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ID: c.statsID,
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Fingerprint: fingerPrintAlgo[0].Value,
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FingerprintAlgorithm: fingerPrintAlgo[0].Algorithm,
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Base64Certificate: base64Certificate,
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IssuerCertificateID: c.x509Cert.Issuer.String(),
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}
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report.Collect(stats.ID, stats)
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return nil
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}
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// CertificateFromPEM creates a fresh certificate based on a string containing
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// pem blocks fort the private key and x509 certificate
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func CertificateFromPEM(pems string) (*Certificate, error) {
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// decode & parse the certificate
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block, more := pem.Decode([]byte(pems))
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if block == nil || block.Type != "CERTIFICATE" {
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return nil, errCertificatePEMFormatError
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}
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certBytes := make([]byte, base64.StdEncoding.DecodedLen(len(block.Bytes)))
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n, err := base64.StdEncoding.Decode(certBytes, block.Bytes)
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if err != nil {
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return nil, fmt.Errorf("failed to decode ceritifcate: %w", err)
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}
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cert, err := x509.ParseCertificate(certBytes[:n])
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if err != nil {
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return nil, fmt.Errorf("failed parsing ceritifcate: %w", err)
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}
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// decode & parse the private key
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block, _ = pem.Decode(more)
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if block == nil || block.Type != "PRIVATE KEY" {
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return nil, errCertificatePEMFormatError
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}
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privateKey, err := x509.ParsePKCS8PrivateKey(block.Bytes)
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if err != nil {
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return nil, fmt.Errorf("unable to parse private key: %w", err)
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}
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x := CertificateFromX509(privateKey, cert)
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return &x, nil
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}
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// PEM returns the certificate encoded as two pem block: once for the X509
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// certificate and the other for the private key
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func (c Certificate) PEM() (string, error) {
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// First write the X509 certificate
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var o strings.Builder
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xcertBytes := make(
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[]byte, base64.StdEncoding.EncodedLen(len(c.x509Cert.Raw)))
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base64.StdEncoding.Encode(xcertBytes, c.x509Cert.Raw)
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err := pem.Encode(&o, &pem.Block{Type: "CERTIFICATE", Bytes: xcertBytes})
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if err != nil {
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return "", fmt.Errorf("failed to pem encode the X certificate: %w", err)
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}
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// Next write the private key
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privBytes, err := x509.MarshalPKCS8PrivateKey(c.privateKey)
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if err != nil {
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return "", fmt.Errorf("failed to marshal private key: %w", err)
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}
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err = pem.Encode(&o, &pem.Block{Type: "PRIVATE KEY", Bytes: privBytes})
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if err != nil {
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return "", fmt.Errorf("failed to encode private key: %w", err)
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}
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return o.String(), nil
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}
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