private static ICertificatePal[] ReadPkcs12Collection( ReadOnlySpan <byte> rawData, SafePasswordHandle password, bool ephemeralSpecified) { using (var reader = new AndroidPkcs12Reader(rawData)) { reader.Decrypt(password, ephemeralSpecified); ICertificatePal[] certs = new ICertificatePal[reader.GetCertCount()]; int idx = 0; foreach (UnixPkcs12Reader.CertAndKey certAndKey in reader.EnumerateAll()) { AndroidCertificatePal pal = (AndroidCertificatePal)certAndKey.Cert !; if (certAndKey.Key != null) { pal.SetPrivateKey(AndroidPkcs12Reader.GetPrivateKey(certAndKey.Key)); } certs[idx] = pal; idx++; } return(certs); } }
public static bool IsPkcs12(ReadOnlySpan <byte> data) { try { using (var reader = new AndroidPkcs12Reader(data)) { return(true); } } catch (CryptographicException) { } return(false); }
private static ICertificatePal ReadPkcs12(ReadOnlySpan <byte> rawData, SafePasswordHandle password, bool ephemeralSpecified) { using (var reader = new AndroidPkcs12Reader(rawData)) { reader.Decrypt(password, ephemeralSpecified); UnixPkcs12Reader.CertAndKey certAndKey = reader.GetSingleCert(); AndroidCertificatePal pal = (AndroidCertificatePal)certAndKey.Cert !; if (certAndKey.Key != null) { pal.SetPrivateKey(AndroidPkcs12Reader.GetPrivateKey(certAndKey.Key)); } return(pal); } }
public X509ContentType GetCertContentType(ReadOnlySpan <byte> rawData) { if (rawData == null || rawData.Length == 0) { throw new CryptographicException(); } X509ContentType contentType = Interop.AndroidCrypto.X509GetContentType(rawData); if (contentType != X509ContentType.Unknown) { return(contentType); } if (AndroidPkcs12Reader.IsPkcs12(rawData)) { return(X509ContentType.Pkcs12); } // Throw on unknown type to match Unix and Windows throw new CryptographicException(SR.Cryptography_UnknownCertContentType); }