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/*
This file is part of cpp-ethereum.
cpp-ethereum is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
cpp-ethereum is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with cpp-ethereum. If not, see <http://www.gnu.org/licenses/>.
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*/
/** @file crypto.cpp
* @author Gav Wood <i@gavwood.com>
* @date 2014
* Crypto test functions.
*/
#include <random>
#include <secp256k1/secp256k1.h>
#include <libdevcore/Common.h>
#include <libdevcore/RLP.h>
#include <libdevcore/Log.h>
#include <libethereum/Transaction.h>
#include <boost/test/unit_test.hpp>
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#include <libdevcrypto/EC.h>
#include <libdevcrypto/SHA3MAC.h>
#include "TestHelperCrypto.h"
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using namespace std;
using namespace dev;
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using namespace dev::crypto;
using namespace CryptoPP;
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BOOST_AUTO_TEST_SUITE(devcrypto)
BOOST_AUTO_TEST_CASE(common_encrypt_decrypt)
{
string message("Now is the time for all good persons to come to the aide of humanity.");
bytes m = asBytes(message);
bytesConstRef bcr(&m);
KeyPair k = KeyPair::create();
bytes cipher;
encrypt(k.pub(), bcr, cipher);
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BOOST_REQUIRE(cipher != asBytes(message) && cipher.size() > 0);
bytes plain;
decrypt(k.sec(), bytesConstRef(&cipher), plain);
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BOOST_REQUIRE(asString(plain) == message);
BOOST_REQUIRE(plain == asBytes(message));
}
BOOST_AUTO_TEST_CASE(cryptopp_vs_secp256k1)
{
ECIES<ECP>::Decryptor d(pp::PRNG, pp::secp256k1Curve);
ECIES<ECP>::Encryptor e(d.GetKey());
Secret s;
pp::exportPrivateKey(d.GetKey(), s);
Public p;
pp::exportPublicKey(e.GetKey(), p);
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BOOST_REQUIRE(dev::toAddress(s) == right160(dev::sha3(p.ref())));
Secret previous = s;
for (auto i = 0; i < 2; i++)
{
ECIES<ECP>::Decryptor d(pp::PRNG, pp::secp256k1Curve);
ECIES<ECP>::Encryptor e(d.GetKey());
Secret s;
pp::exportPrivateKey(d.GetKey(), s);
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BOOST_REQUIRE(s != previous);
Public p;
pp::exportPublicKey(e.GetKey(), p);
h160 secp256k1Addr = dev::toAddress(s);
h160 cryptoppAddr = right160(dev::sha3(p.ref()));
if (secp256k1Addr != cryptoppAddr)
{
BOOST_REQUIRE(secp256k1Addr == cryptoppAddr);
break;
}
}
}
BOOST_AUTO_TEST_CASE(cryptopp_cryptopp_secp256k1libport)
{
// cryptopp implementation of secp256k1lib sign_compact w/recid parameter and recovery of public key from signature
// base secret
Secret secret(sha3("privacy"));
// we get ec params from signer
const CryptoPP::DL_GroupParameters_EC<CryptoPP::ECP> params = pp::secp256k1Params;
ECDSA<ECP, SHA3_256>::Signer signer;
// e := sha3(msg)
bytes e(fromHex("0x01"));
e.resize(32);
int tests = 2; // Oct 29: successful @ 1500
while (sha3(&e, &e), secret = sha3(secret.asBytes()), tests--)
{
KeyPair key(secret);
Public pkey = key.pub();
pp::initializeDLScheme(secret, signer);
h256 he(sha3(e));
Integer heInt(he.asBytes().data(), 32);
h256 k(crypto::kdf(secret, he));
Integer kInt(k.asBytes().data(), 32);
kInt %= params.GetSubgroupOrder()-1;
ECP::Point rp = params.ExponentiateBase(kInt);
Integer const& q = params.GetGroupOrder();
Integer r = params.ConvertElementToInteger(rp);
int recid = ((r >= q) ? 2 : 0) | (rp.y.IsOdd() ? 1 : 0);
Integer kInv = kInt.InverseMod(q);
Integer s = (kInv * (Integer(secret.asBytes().data(), 32)*r + heInt)) % q;
BOOST_REQUIRE(!!r && !!s);
/*
// For future reference:
// According to maths, this codepath can't be reached, however, it's in secp256k1.
// Commenting this out diverges from codebase implementation.
// To be removed after upstream PR and proof are evaulated.
if (s > params.GetSubgroupOrder())
{
// note: this rarely happens
s = params.GetGroupOrder() - s;
if (recid)
recid ^= 1;
}
*/
Signature sig;
r.Encode(sig.data(), 32);
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s.Encode(sig.data() + 32, 32);
sig[64] = recid;
Public p = dev::recover(sig, he);
BOOST_REQUIRE(p == pkey);
// verify w/cryptopp
BOOST_REQUIRE(crypto::verify(pkey, sig, bytesConstRef(&e)));
// verify with secp256k1lib
byte encpub[65] = {0x04};
memcpy(&encpub[1], pkey.data(), 64);
byte dersig[72];
size_t cssz = DSAConvertSignatureFormat(dersig, 72, DSA_DER, sig.data(), 64, DSA_P1363);
BOOST_CHECK(cssz <= 72);
BOOST_REQUIRE(1 == secp256k1_ecdsa_verify(he.data(), sizeof(he), dersig, cssz, encpub, 65));
}
}
BOOST_AUTO_TEST_CASE(cryptopp_ecdsa_sipaseckp256k1)
{
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// cryptopp integer encoding
Integer nHex("f2ee15ea639b73fa3db9b34a245bdfa015c260c598b211bf05a1ecc4b3e3b4f2H");
Integer nB(fromHex("f2ee15ea639b73fa3db9b34a245bdfa015c260c598b211bf05a1ecc4b3e3b4f2").data(), 32);
BOOST_REQUIRE(nHex == nB);
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bytes sbytes(fromHex("0x01"));
Secret secret(sha3(sbytes)); // 5fe7f977e71dba2ea1a68e21057beebb9be2ac30c6410aa38d4f3fbe41dcffd2
KeyPair key(secret);
bytes m(fromHex("0x01"));
int tests = 2;
while (m[0]++, tests--)
{
h256 hm(sha3(m));
Integer hInt(hm.asBytes().data(), 32);
h256 k(hm ^ key.sec());
Integer kInt(k.asBytes().data(), 32);
// raw sign w/cryptopp (doesn't pass through cryptopp hash filter)
ECDSA<ECP, SHA3_256>::Signer signer;
pp::initializeDLScheme(key.sec(), signer);
Integer r, s;
signer.RawSign(kInt, hInt, r, s);
// verify cryptopp raw-signature w/cryptopp
ECDSA<ECP, SHA3_256>::Verifier verifier;
pp::initializeDLScheme(key.pub(), verifier);
Signature sigppraw;
r.Encode(sigppraw.data(), 32);
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s.Encode(sigppraw.data() + 32, 32);
BOOST_REQUIRE(verifier.VerifyMessage(m.data(), m.size(), sigppraw.data(), 64));
BOOST_REQUIRE(crypto::verify(key.pub(), sigppraw, bytesConstRef(&m)));
BOOST_REQUIRE(dev::verify(key.pub(), sigppraw, hm));
// sign with cryptopp, verify, recover w/sec256lib
Signature seclibsig(dev::sign(key.sec(), hm));
BOOST_REQUIRE(verifier.VerifyMessage(m.data(), m.size(), seclibsig.data(), 64));
BOOST_REQUIRE(crypto::verify(key.pub(), seclibsig, bytesConstRef(&m)));
BOOST_REQUIRE(dev::verify(key.pub(), seclibsig, hm));
BOOST_REQUIRE(dev::recover(seclibsig, hm) == key.pub());
// sign with cryptopp (w/hash filter?), verify with cryptopp
bytes sigppb(signer.MaxSignatureLength());
size_t ssz = signer.SignMessage(pp::PRNG, m.data(), m.size(), sigppb.data());
Signature sigpp;
memcpy(sigpp.data(), sigppb.data(), 64);
BOOST_REQUIRE(verifier.VerifyMessage(m.data(), m.size(), sigppb.data(), ssz));
BOOST_REQUIRE(crypto::verify(key.pub(), sigpp, bytesConstRef(&m)));
BOOST_REQUIRE(dev::verify(key.pub(), sigpp, hm));
// sign with cryptopp and stringsource hash filter
string sigstr;
StringSource ssrc(asString(m), true, new SignerFilter(pp::PRNG, signer, new StringSink(sigstr)));
FixedHash<sizeof(Signature)> retsig((byte const*)sigstr.data(), Signature::ConstructFromPointer);
BOOST_REQUIRE(verifier.VerifyMessage(m.data(), m.size(), retsig.data(), 64));
BOOST_REQUIRE(crypto::verify(key.pub(), retsig, bytesConstRef(&m)));
BOOST_REQUIRE(dev::verify(key.pub(), retsig, hm));
/// verification w/sec256lib
// requires public key and sig in standard format
byte encpub[65] = {0x04};
memcpy(&encpub[1], key.pub().data(), 64);
byte dersig[72];
// verify sec256lib sig w/sec256lib
size_t cssz = DSAConvertSignatureFormat(dersig, 72, DSA_DER, seclibsig.data(), 64, DSA_P1363);
BOOST_CHECK(cssz <= 72);
BOOST_REQUIRE(1 == secp256k1_ecdsa_verify(hm.data(), sizeof(hm), dersig, cssz, encpub, 65));
// verify cryptopp-raw sig w/sec256lib
cssz = DSAConvertSignatureFormat(dersig, 72, DSA_DER, sigppraw.data(), 64, DSA_P1363);
BOOST_CHECK(cssz <= 72);
BOOST_REQUIRE(1 == secp256k1_ecdsa_verify(hm.data(), sizeof(hm), dersig, cssz, encpub, 65));
// verify cryptopp sig w/sec256lib
cssz = DSAConvertSignatureFormat(dersig, 72, DSA_DER, sigppb.data(), 64, DSA_P1363);
BOOST_CHECK(cssz <= 72);
BOOST_REQUIRE(1 == secp256k1_ecdsa_verify(hm.data(), sizeof(hm), dersig, cssz, encpub, 65));
}
}
BOOST_AUTO_TEST_CASE(cryptopp_public_export_import)
{
ECIES<ECP>::Decryptor d(pp::PRNG, pp::secp256k1Curve);
ECIES<ECP>::Encryptor e(d.GetKey());
Secret s;
pp::exportPrivateKey(d.GetKey(), s);
Public p;
pp::exportPublicKey(e.GetKey(), p);
Address addr = right160(dev::sha3(p.ref()));
BOOST_REQUIRE(toAddress(s) == addr);
KeyPair l(s);
BOOST_REQUIRE(l.address() == addr);
}
BOOST_AUTO_TEST_CASE(ecies_eckeypair)
{
KeyPair k = KeyPair::create();
string message("Now is the time for all good persons to come to the aide of humanity.");
string original = message;
bytes b = asBytes(message);
encrypt(k.pub(), b);
BOOST_REQUIRE(b != asBytes(original));
decrypt(k.sec(), b);
BOOST_REQUIRE(b == asBytes(original));
}
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BOOST_AUTO_TEST_CASE(ecdhe_aes128_ctr_sha3mac)
{
// New connections require new ECDH keypairs
// Every new connection requires a new EC keypair
// Every new trust requires a new EC keypair
// All connections should share seed for PRF (or PRNG) for nonces
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}
BOOST_AUTO_TEST_CASE(cryptopp_ecies_message)
{
cnote << "Testing cryptopp_ecies_message...";
string const message("Now is the time for all good persons to come to the aide of humanity.");
ECIES<ECP>::Decryptor localDecryptor(pp::PRNG, pp::secp256k1Curve);
SavePrivateKey(localDecryptor.GetPrivateKey());
ECIES<ECP>::Encryptor localEncryptor(localDecryptor);
SavePublicKey(localEncryptor.GetPublicKey());
ECIES<ECP>::Decryptor futureDecryptor;
LoadPrivateKey(futureDecryptor.AccessPrivateKey());
futureDecryptor.GetPrivateKey().ThrowIfInvalid(pp::PRNG, 3);
ECIES<ECP>::Encryptor futureEncryptor;
LoadPublicKey(futureEncryptor.AccessPublicKey());
futureEncryptor.GetPublicKey().ThrowIfInvalid(pp::PRNG, 3);
// encrypt/decrypt with local
string cipherLocal;
StringSource ss1 (message, true, new PK_EncryptorFilter(pp::PRNG, localEncryptor, new StringSink(cipherLocal) ) );
string plainLocal;
StringSource ss2 (cipherLocal, true, new PK_DecryptorFilter(pp::PRNG, localDecryptor, new StringSink(plainLocal) ) );
// encrypt/decrypt with future
string cipherFuture;
StringSource ss3 (message, true, new PK_EncryptorFilter(pp::PRNG, futureEncryptor, new StringSink(cipherFuture) ) );
string plainFuture;
StringSource ss4 (cipherFuture, true, new PK_DecryptorFilter(pp::PRNG, futureDecryptor, new StringSink(plainFuture) ) );
// decrypt local w/future
string plainFutureFromLocal;
StringSource ss5 (cipherLocal, true, new PK_DecryptorFilter(pp::PRNG, futureDecryptor, new StringSink(plainFutureFromLocal) ) );
// decrypt future w/local
string plainLocalFromFuture;
StringSource ss6 (cipherFuture, true, new PK_DecryptorFilter(pp::PRNG, localDecryptor, new StringSink(plainLocalFromFuture) ) );
BOOST_REQUIRE(plainLocal == message);
BOOST_REQUIRE(plainFuture == plainLocal);
BOOST_REQUIRE(plainFutureFromLocal == plainLocal);
BOOST_REQUIRE(plainLocalFromFuture == plainLocal);
}
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BOOST_AUTO_TEST_CASE(cryptopp_aes128_ctr)
{
const int aesKeyLen = 16;
BOOST_REQUIRE(sizeof(char) == sizeof(byte));
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// generate test key
AutoSeededRandomPool rng;
SecByteBlock key(0x00, aesKeyLen);
rng.GenerateBlock(key, key.size());
// cryptopp uses IV as nonce/counter which is same as using nonce w/0 ctr
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byte ctr[AES::BLOCKSIZE];
rng.GenerateBlock(ctr, sizeof(ctr));
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string text = "Now is the time for all good persons to come to the aide of humanity.";
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// c++11 ftw
unsigned char const* in = (unsigned char*)&text[0];
unsigned char* out = (unsigned char*)&text[0];
string original = text;
string cipherCopy;
try
{
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CTR_Mode<AES>::Encryption e;
e.SetKeyWithIV(key, key.size(), ctr);
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e.ProcessData(out, in, text.size());
BOOST_REQUIRE(text != original);
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cipherCopy = text;
}
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catch(CryptoPP::Exception& e)
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{
cerr << e.what() << endl;
}
try
{
CTR_Mode< AES >::Decryption d;
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d.SetKeyWithIV(key, key.size(), ctr);
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d.ProcessData(out, in, text.size());
BOOST_REQUIRE(text == original);
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}
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catch(CryptoPP::Exception& e)
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{
cerr << e.what() << endl;
}
// reencrypt ciphertext...
try
{
BOOST_REQUIRE(cipherCopy != text);
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in = (unsigned char*)&cipherCopy[0];
out = (unsigned char*)&cipherCopy[0];
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CTR_Mode<AES>::Encryption e;
e.SetKeyWithIV(key, key.size(), ctr);
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e.ProcessData(out, in, text.size());
// yep, ctr mode.
BOOST_REQUIRE(cipherCopy == original);
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}
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catch(CryptoPP::Exception& e)
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{
cerr << e.what() << endl;
}
}
BOOST_AUTO_TEST_CASE(cryptopp_aes128_cbc)
{
const int aesKeyLen = 16;
BOOST_REQUIRE(sizeof(char) == sizeof(byte));
AutoSeededRandomPool rng;
SecByteBlock key(0x00, aesKeyLen);
rng.GenerateBlock(key, key.size());
// Generate random IV
byte iv[AES::BLOCKSIZE];
rng.GenerateBlock(iv, AES::BLOCKSIZE);
string string128("AAAAAAAAAAAAAAAA");
string plainOriginal = string128;
CryptoPP::CBC_Mode<Rijndael>::Encryption cbcEncryption(key, key.size(), iv);
cbcEncryption.ProcessData((byte*)&string128[0], (byte*)&string128[0], string128.size());
BOOST_REQUIRE(string128 != plainOriginal);
CBC_Mode<Rijndael>::Decryption cbcDecryption(key, key.size(), iv);
cbcDecryption.ProcessData((byte*)&string128[0], (byte*)&string128[0], string128.size());
BOOST_REQUIRE(plainOriginal == string128);
// plaintext whose size isn't divisible by block size must use stream filter for padding
string string192("AAAAAAAAAAAAAAAABBBBBBBB");
plainOriginal = string192;
string cipher;
StreamTransformationFilter* aesStream = new StreamTransformationFilter(cbcEncryption, new StringSink(cipher));
StringSource source(string192, true, aesStream);
BOOST_REQUIRE(cipher.size() == 32);
cbcDecryption.ProcessData((byte*)&cipher[0], (byte*)&string192[0], cipher.size());
BOOST_REQUIRE(string192 == plainOriginal);
}
BOOST_AUTO_TEST_CASE(eth_keypairs)
{
cnote << "Testing Crypto...";
secp256k1_start();
KeyPair p(Secret(fromHex("3ecb44df2159c26e0f995712d4f39b6f6e499b40749b1cf1246c37f9516cb6a4")));
BOOST_REQUIRE(p.pub() == Public(fromHex("97466f2b32bc3bb76d4741ae51cd1d8578b48d3f1e68da206d47321aec267ce78549b514e4453d74ef11b0cd5e4e4c364effddac8b51bcfc8de80682f952896f")));
BOOST_REQUIRE(p.address() == Address(fromHex("8a40bfaa73256b60764c1bf40675a99083efb075")));
{
eth::Transaction t(1000, 0, 0, h160(fromHex("944400f4b88ac9589a0f17ed4671da26bddb668b")), bytes(), 0, p.secret());
auto rlp = t.rlp(eth::WithoutSignature);
cnote << RLP(rlp);
cnote << toHex(rlp);
cnote << t.sha3(eth::WithoutSignature);
rlp = t.rlp(eth::WithSignature);
cnote << RLP(rlp);
cnote << toHex(rlp);
cnote << t.sha3(eth::WithSignature);
BOOST_REQUIRE(t.sender() == p.address());
}
}
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int cryptoTest()
{
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cnote << "Testing Crypto...";
secp256k1_start();
KeyPair p(Secret(fromHex("3ecb44df2159c26e0f995712d4f39b6f6e499b40749b1cf1246c37f9516cb6a4")));
BOOST_REQUIRE(p.pub() == Public(fromHex("97466f2b32bc3bb76d4741ae51cd1d8578b48d3f1e68da206d47321aec267ce78549b514e4453d74ef11b0cd5e4e4c364effddac8b51bcfc8de80682f952896f")));
BOOST_REQUIRE(p.address() == Address(fromHex("8a40bfaa73256b60764c1bf40675a99083efb075")));
{
eth::Transaction t(1000, 0, 0, h160(fromHex("944400f4b88ac9589a0f17ed4671da26bddb668b")), bytes(), 0, p.secret());
auto rlp = t.rlp(eth::WithoutSignature);
cnote << RLP(rlp);
cnote << toHex(rlp);
cnote << t.sha3(eth::WithoutSignature);
rlp = t.rlp(eth::WithSignature);
cnote << RLP(rlp);
cnote << toHex(rlp);
cnote << t.sha3(eth::WithSignature);
assert(t.sender() == p.address());
}
#if 0
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// Test transaction.
bytes tx = fromHex("88005401010101010101010101010101010101010101011f0de0b6b3a76400001ce8d4a5100080181c373130a009ba1f10285d4e659568bfcfec85067855c5a3c150100815dad4ef98fd37cf0593828c89db94bd6c64e210a32ef8956eaa81ea9307194996a3b879441f5d");
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cout << "TX: " << RLP(tx) << endl;
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Transaction t2(tx);
cout << "SENDER: " << hex << t2.sender() << dec << endl;
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secp256k1_start();
Transaction t;
t.nonce = 0;
t.value = 1; // 1 wei.
t.type = eth::Transaction::MessageCall;
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t.receiveAddress = toAddress(sha3("123"));
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bytes sig64 = toBigEndian(t.vrs.r) + toBigEndian(t.vrs.s);
cout << "SIG: " << sig64.size() << " " << toHex(sig64) << " " << t.vrs.v << endl;
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auto msg = t.rlp(false);
cout << "TX w/o SIG: " << RLP(msg) << endl;
cout << "RLP(TX w/o SIG): " << toHex(t.rlp(false)) << endl;
std::string hmsg = sha3(t.rlp(false), false);
cout << "SHA256(RLP(TX w/o SIG)): 0x" << toHex(hmsg) << endl;
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bytes privkey = sha3Bytes("123");
{
bytes pubkey(65);
int pubkeylen = 65;
int ret = secp256k1_ecdsa_seckey_verify(privkey.data());
cout << "SEC: " << dec << ret << " " << toHex(privkey) << endl;
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ret = secp256k1_ecdsa_pubkey_create(pubkey.data(), &pubkeylen, privkey.data(), 1);
pubkey.resize(pubkeylen);
int good = secp256k1_ecdsa_pubkey_verify(pubkey.data(), (int)pubkey.size());
cout << "PUB: " << dec << ret << " " << pubkeylen << " " << toHex(pubkey) << (good ? " GOOD" : " BAD") << endl;
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}
// Test roundtrip...
{
bytes sig(64);
u256 nonce = 0;
int v = 0;
cout << toHex(hmsg) << endl;
cout << toHex(privkey) << endl;
cout << hex << nonce << dec << endl;
int ret = secp256k1_ecdsa_sign_compact((byte const*)hmsg.data(), (int)hmsg.size(), sig.data(), privkey.data(), (byte const*)&nonce, &v);
cout << "MYSIG: " << dec << ret << " " << sig.size() << " " << toHex(sig) << " " << v << endl;
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bytes pubkey(65);
int pubkeylen = 65;
ret = secp256k1_ecdsa_recover_compact((byte const*)hmsg.data(), (int)hmsg.size(), (byte const*)sig.data(), pubkey.data(), &pubkeylen, 0, v);
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pubkey.resize(pubkeylen);
cout << "MYREC: " << dec << ret << " " << pubkeylen << " " << toHex(pubkey) << endl;
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}
{
bytes pubkey(65);
int pubkeylen = 65;
int ret = secp256k1_ecdsa_recover_compact((byte const*)hmsg.data(), (int)hmsg.size(), (byte const*)sig64.data(), pubkey.data(), &pubkeylen, 0, (int)t.vrs.v - 27);
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pubkey.resize(pubkeylen);
cout << "RECPUB: " << dec << ret << " " << pubkeylen << " " << toHex(pubkey) << endl;
cout << "SENDER: " << hex << toAddress(dev::sha3(bytesConstRef(&pubkey).cropped(1))) << dec << endl;
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}
#endif
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return 0;
}
BOOST_AUTO_TEST_SUITE_END()