[英]Error when verifying ECDSA signature in Java with BouncyCastle
我已经测试了一个解决方案,以验证ECDSA签名( 如何从EC公钥字节中获取PublicKey对象? ),该解决方案与给定数据完美配合。
这是数据:
byte[] pubKey = DatatypeConverter.parseHexBinary("049a55ad1e210cd113457ccd3465b930c9e7ade5e760ef64b63142dad43a308ed08e2d85632e8ff0322d3c7fda14409eafdc4c5b8ee0882fe885c92e3789c36a7a");
byte[] message = DatatypeConverter.parseHexBinary("54686973206973206a75737420736f6d6520706f696e746c6573732064756d6d7920737472696e672e205468616e6b7320616e7977617920666f722074616b696e67207468652074696d6520746f206465636f6465206974203b2d29");
byte[] signature = DatatypeConverter.parseHexBinary("304402205fef461a4714a18a5ca6dce6d5ab8604f09f3899313a28ab430eb9860f8be9d602203c8d36446be85383af3f2e8630f40c4172543322b5e8973e03fff2309755e654");
这是代码(打印为true ):
private static boolean isValidSignature(byte[] pubKey, byte[] message,byte[] signature) throws NoSuchAlgorithmException, NoSuchProviderException, InvalidKeyException, SignatureException, InvalidKeySpecException {
Signature ecdsaVerify = Signature.getInstance("SHA256withECDSA", new BouncyCastleProvider());
ecdsaVerify.initVerify(getPublicKeyFromBytes(pubKey));
ecdsaVerify.update(message);
return ecdsaVerify.verify(signature);
}
private static PublicKey getPublicKeyFromBytes(byte[] pubKey) throws NoSuchAlgorithmException, InvalidKeySpecException {
ECNamedCurveParameterSpec spec = ECNamedCurveTable.getParameterSpec("prime256v1");
KeyFactory kf = KeyFactory.getInstance("ECDSA", new BouncyCastleProvider());
ECNamedCurveSpec params = new ECNamedCurveSpec("prime256v1", spec.getCurve(), spec.getG(), spec.getN());
ECPoint point = ECPointUtil.decodePoint(params.getCurve(), pubKey);
ECPublicKeySpec pubKeySpec = new ECPublicKeySpec(point, params);
ECPublicKey pk = (ECPublicKey) kf.generatePublic(pubKeySpec);
return pk;
}
public static void main (String[] args) {
System.out.println(isValidSignature(pubKey, message, signature));
}
当我将签名和数据更改为已经实现的系统的示例输入时,我的问题出现了:
final static byte[] pubKey = DatatypeConverter.parseHexBinary("0447303876C6FED5550DF3EE1136989FCD87293D54A5D8E2F2F6D7FBE9A81089B889A5917443AF33E696178CEF4C9D6A4288B2745B29AF6C8BCAD1348F78EB9F9B");
final static byte[] message = DatatypeConverter.parseHexBinary("02158001f53611a06e2d1a270000013ed9305dc2780524015110500000002d0100140092569202017aa00c5dd30000000000000000000000000000000007d1000001020001b20788b80059f48d95cdefc8c6000200200030d41e0000012016840310a50733a9870fffd0430100");
final static byte[] signature = DatatypeConverter.parseHexBinary("531F8918FF250132959B01F7F56FDFD9E6CA3EC2144E12A6DA37C281489A3D96");
新数据输出此错误:
java.security.SignatureException: error decoding signature bytes.
at org.bouncycastle.jcajce.provider.asymmetric.util.DSABase.engineVerify(Unknown Source)
at java.security.Signature$Delegate.engineVerify(Signature.java:1178)
at java.security.Signature.verify(Signature.java:612)
at its.sec.exec.TestProgram.isValidSignature(TestProgram.java:168)
at its.sec.exec.TestProgram.execution(TestProgram.java:101)
at its.sec.exec.TestProgram.main(TestProgram.java:55)
我假设问题是关于安全消息附带的签名,因为:
最后值得一提的是,我的文档说签名前面必须有一个名为“R”的字段, “包含椭圆曲线点的x坐标,这是由生成器元素乘以短暂的私钥产生的” ,其长度必须是与签名相同(32字节)。
有人能指出我在这里缺少的东西吗?
编辑:解决方案
正如Peter Dettman在他的回答中指出的那样, signature没有正确格式化(也是内容也不正确),以便通过verify()方法计算。 这是一个很好的解释,主要是说:
在DER中编码时,此(签名)将成为以下字节序列:
0x30 b1 0x02 b2 (vr) 0x02 b3 (vs)哪里:
- b1是单字节值,等于剩余字节列表的长度(以字节为单位)(从第一个0x02到编码结束);
- b2是单字节值,等于(vr)的字节长度(以字节为单位);
- b3是单字节值,等于(vs)的长度(以字节为单位);
- (vr)是具有最小长度的值“r”的带符号的大端编码;
- (vs)是值“s”的签名大端编码,具有最小长度。
应用该更改, signature增长到70个字节,执行输出没有错误。
BC(和其他提供者)实现所使用的预期ECDSA签名格式是DER编码的ASN.1序列,其包含两个整数值r和s 。 此签名格式已在ANSI X9.62中指定。 这是您提供的第一组数据中的格式(请注意, signature总共为70个字节)。
在第二组数据中, signature只有32个字节,根本不是ASN.1序列。 我猜这个值只是s值,它缺少r值和它们的ASN.1 INTEGER编码,而是将值编码为与键大小相同的无符号大整数值。
这是以ASN1 DER编码格式编写r和s的示例代码
// construct the ASN1Sequence with r and s
ByteArrayOutputStream outs = new ByteArrayOutputStream();
byte radd = (byte)(((signed[0] & 0x80) > 0) ? 1 : 0);
byte sadd = (byte)(((signed[32] & 0x80) > 0) ? 1 : 0);
byte length = (byte)(0x44 + radd + sadd);
outs.write(0x30);
outs.write(length); // length 68 bytes +
outs.write(0x02); // ASN1Integer
outs.write(0x20 + radd); // length 32 bytes
if(radd > 0)
outs.write(0x00); // positive val
outs.write(signed, 0, 32);
outs.write(0x02); // ASN1Integer
outs.write(0x20 + sadd); // length 32 bytes
if(sadd > 0)
outs.write(0x00); // positive val
outs.write(signed, 32, 32);
signed = outs.toByteArray();
Java的BouncyCastle并不总是验证OpenSSL ECDSA签名
[英]Java's BouncyCastle doesn't always verify OpenSSL ECDSA signature
使用BouncyCastle进行ECDSA验证:SignatureException:解码签名字节时出错
[英]ECDSA verification with BouncyCastle: SignatureException: error decoding signature bytes
Bouncycastle ECDSA 签名验证在签名后可以,但在重新加载公钥、消息和签名时在下次运行时失败
[英]Bouncycastle ECDSA signature verification is OK after signing but fails at next run when reloading public key, message and signatue
在BouncyCastle上使用数字签名算法(ECDSA)实现的椭圆曲线
[英]Elliptic Curve with Digital Signature Algorithm (ECDSA) implementation on BouncyCastle
使用secp256r1曲线(BouncyCastle)生成ECDSA签名的长度为127的签名
[英]ECDSA signature generation using secp256r1 curve (BouncyCastle) giving signature with length 127
声明:本站的技术帖子网页,遵循CC BY-SA 4.0协议,如果您需要转载,请注明本站网址或者原文地址。任何问题请咨询:yoyou2525@163.com.