key_tests.cpp

// Copyright (c) 2012-2018 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.

#include <key.h>

#include <key_io.h>
#include <outputtype.h>
#include <script/script.h>
#include <uint256.h>
#include <util/system.h>
#include <util/strencodings.h>
#include <test/test_bitcoin.h>

#include <string>
#include <vector>

#include <boost/test/unit_test.hpp>

static const std::string strSecret1 = "6BZ8Haqsh2vEhZ5noB6rHXthKenCLvwnGFH6qeBz8DULcbuptRY";
static const std::string strSecret2 = "6AimapTK6hhp6rNb9me5UEaQzx7s2U98ddbu5PLNWCxuE7Pautr";
static const std::string strSecret1C = "PsaoACNijhTyTzc98oapXyMAyKkV4y6nnJ24mh9V8r3fZfFATh8W";
static const std::string strSecret2C = "PouMnGT8tAf8tpvHji2ejCvUvnHHoUntggZ2rMaVuuojWQ3XWDvA";
static const std::string addr1 = "BcxYoEdfdQ5WX2zfoSyfsoCSW9bW7TeApY";
static const std::string addr2 = "BrENfmHMnN5tmFHu7A25DXMTvsZhB7CH1P";
static const std::string addr1C = "Bo7e3H5YSaHjdr4TvKzm3yysqZQD9HikV5";
static const std::string addr2C = "BbGGU7jNMZ6mTTVprT9jmMM7Ytp21nzdtu";

static const std::string strAddressBad = "1HV9Lc3sNHZxwj4Zk6fB38tEmBryq2cBiF";


BOOST_FIXTURE_TEST_SUITE(key_tests, BasicTestingSetup)

BOOST_AUTO_TEST_CASE(key_test1)
{
    CKey key1  = DecodeSecret(strSecret1);
    BOOST_CHECK(key1.IsValid() && !key1.IsCompressed());
    CKey key2  = DecodeSecret(strSecret2);
    BOOST_CHECK(key2.IsValid() && !key2.IsCompressed());
    CKey key1C = DecodeSecret(strSecret1C);
    BOOST_CHECK(key1C.IsValid() && key1C.IsCompressed());
    CKey key2C = DecodeSecret(strSecret2C);
    BOOST_CHECK(key2C.IsValid() && key2C.IsCompressed());
    CKey bad_key = DecodeSecret(strAddressBad);
    BOOST_CHECK(!bad_key.IsValid());

    CPubKey pubkey1  = key1. GetPubKey();
    CPubKey pubkey2  = key2. GetPubKey();
    CPubKey pubkey1C = key1C.GetPubKey();
    CPubKey pubkey2C = key2C.GetPubKey();

    BOOST_CHECK(key1.VerifyPubKey(pubkey1));
    BOOST_CHECK(!key1.VerifyPubKey(pubkey1C));
    BOOST_CHECK(!key1.VerifyPubKey(pubkey2));
    BOOST_CHECK(!key1.VerifyPubKey(pubkey2C));

    BOOST_CHECK(!key1C.VerifyPubKey(pubkey1));
    BOOST_CHECK(key1C.VerifyPubKey(pubkey1C));
    BOOST_CHECK(!key1C.VerifyPubKey(pubkey2));
    BOOST_CHECK(!key1C.VerifyPubKey(pubkey2C));

    BOOST_CHECK(!key2.VerifyPubKey(pubkey1));
    BOOST_CHECK(!key2.VerifyPubKey(pubkey1C));
    BOOST_CHECK(key2.VerifyPubKey(pubkey2));
    BOOST_CHECK(!key2.VerifyPubKey(pubkey2C));

    BOOST_CHECK(!key2C.VerifyPubKey(pubkey1));
    BOOST_CHECK(!key2C.VerifyPubKey(pubkey1C));
    BOOST_CHECK(!key2C.VerifyPubKey(pubkey2));
    BOOST_CHECK(key2C.VerifyPubKey(pubkey2C));

    BOOST_CHECK(DecodeDestination(addr1)  == CTxDestination(pubkey1.GetID()));
    BOOST_CHECK(DecodeDestination(addr2)  == CTxDestination(pubkey2.GetID()));
    BOOST_CHECK(DecodeDestination(addr1C) == CTxDestination(pubkey1C.GetID()));
    BOOST_CHECK(DecodeDestination(addr2C) == CTxDestination(pubkey2C.GetID()));

    for (int n=0; n<16; n++)
    {
        std::string strMsg = strprintf("Very secret message %i: 11", n);
        uint256 hashMsg = Hash(strMsg.begin(), strMsg.end());

        // normal signatures

        std::vector<unsigned char> sign1, sign2, sign1C, sign2C;

        BOOST_CHECK(key1.Sign (hashMsg, sign1));
        BOOST_CHECK(key2.Sign (hashMsg, sign2));
        BOOST_CHECK(key1C.Sign(hashMsg, sign1C));
        BOOST_CHECK(key2C.Sign(hashMsg, sign2C));

        BOOST_CHECK( pubkey1.Verify(hashMsg, sign1));
        BOOST_CHECK(!pubkey1.Verify(hashMsg, sign2));
        BOOST_CHECK( pubkey1.Verify(hashMsg, sign1C));
        BOOST_CHECK(!pubkey1.Verify(hashMsg, sign2C));

        BOOST_CHECK(!pubkey2.Verify(hashMsg, sign1));
        BOOST_CHECK( pubkey2.Verify(hashMsg, sign2));
        BOOST_CHECK(!pubkey2.Verify(hashMsg, sign1C));
        BOOST_CHECK( pubkey2.Verify(hashMsg, sign2C));

        BOOST_CHECK( pubkey1C.Verify(hashMsg, sign1));
        BOOST_CHECK(!pubkey1C.Verify(hashMsg, sign2));
        BOOST_CHECK( pubkey1C.Verify(hashMsg, sign1C));
        BOOST_CHECK(!pubkey1C.Verify(hashMsg, sign2C));

        BOOST_CHECK(!pubkey2C.Verify(hashMsg, sign1));
        BOOST_CHECK( pubkey2C.Verify(hashMsg, sign2));
        BOOST_CHECK(!pubkey2C.Verify(hashMsg, sign1C));
        BOOST_CHECK( pubkey2C.Verify(hashMsg, sign2C));

        // compact signatures (with key recovery)

        std::vector<unsigned char> csign1, csign2, csign1C, csign2C;

        BOOST_CHECK(key1.SignCompact (hashMsg, csign1));
        BOOST_CHECK(key2.SignCompact (hashMsg, csign2));
        BOOST_CHECK(key1C.SignCompact(hashMsg, csign1C));
        BOOST_CHECK(key2C.SignCompact(hashMsg, csign2C));

        CPubKey rkey1, rkey2, rkey1C, rkey2C;

        BOOST_CHECK(rkey1.RecoverCompact (hashMsg, csign1));
        BOOST_CHECK(rkey2.RecoverCompact (hashMsg, csign2));
        BOOST_CHECK(rkey1C.RecoverCompact(hashMsg, csign1C));
        BOOST_CHECK(rkey2C.RecoverCompact(hashMsg, csign2C));

        BOOST_CHECK(rkey1  == pubkey1);
        BOOST_CHECK(rkey2  == pubkey2);
        BOOST_CHECK(rkey1C == pubkey1C);
        BOOST_CHECK(rkey2C == pubkey2C);
    }

    // test deterministic signing

    std::vector<unsigned char> detsig, detsigc;
    std::string strMsg = "Very deterministic message";
    uint256 hashMsg = Hash(strMsg.begin(), strMsg.end());
    BOOST_CHECK(key1.Sign(hashMsg, detsig));
    BOOST_CHECK(key1C.Sign(hashMsg, detsigc));
    BOOST_CHECK(detsig == detsigc);
    BOOST_TEST_MESSAGE(HexStr(detsig));
    BOOST_CHECK(detsig == ParseHex("304402207098186b3870bc00797a3a19ddd66381da2f0496b336e49708af5d9540855bf40220406f4bcac24b59b319fcc01ca58ee75a13d62e0783dac277dc917b48f1914afd"));
    BOOST_CHECK(key2.Sign(hashMsg, detsig));
    BOOST_CHECK(key2C.Sign(hashMsg, detsigc));
    BOOST_CHECK(detsig == detsigc);
    BOOST_TEST_MESSAGE(HexStr(detsig));
    BOOST_CHECK(detsig == ParseHex("304402204e5863058484ce3a85568604464eae9198417b30b78c9c0bacef6146df51172202204f8b84e4468dd4b35c96bac0010888cddf8b048759b39784719472cc00038582"));
    BOOST_CHECK(key1.SignCompact(hashMsg, detsig));
    BOOST_CHECK(key1C.SignCompact(hashMsg, detsigc));
    BOOST_TEST_MESSAGE(HexStr(detsig));
    BOOST_TEST_MESSAGE(HexStr(detsigc));
    BOOST_CHECK(detsig == ParseHex("1ba90eafb3261e2894a478a02efef73370f0b43a3f704971feb3c93ec92b2fdc4338a1362fba88d1d3079a161a3c11eab41d86de08bb840fcca9e1eaf01b586ef8"));
    BOOST_CHECK(detsigc == ParseHex("1fa90eafb3261e2894a478a02efef73370f0b43a3f704971feb3c93ec92b2fdc4338a1362fba88d1d3079a161a3c11eab41d86de08bb840fcca9e1eaf01b586ef8"));
    BOOST_CHECK(key2.SignCompact(hashMsg, detsig));
    BOOST_CHECK(key2C.SignCompact(hashMsg, detsigc));
    BOOST_TEST_MESSAGE(HexStr(detsig));
    BOOST_TEST_MESSAGE(HexStr(detsigc));
    BOOST_CHECK(detsig == ParseHex("1c4e5863058484ce3a85568604464eae9198417b30b78c9c0bacef6146df5117224f8b84e4468dd4b35c96bac0010888cddf8b048759b39784719472cc00038582"));
    BOOST_CHECK(detsigc == ParseHex("204e5863058484ce3a85568604464eae9198417b30b78c9c0bacef6146df5117224f8b84e4468dd4b35c96bac0010888cddf8b048759b39784719472cc00038582"));
}

BOOST_AUTO_TEST_CASE(key_signature_tests)
{
    // When entropy is specified, we should see at least one high R signature within 20 signatures
    CKey key = DecodeSecret(strSecret1);
    std::string msg = "A message to be signed";
    uint256 msg_hash = Hash(msg.begin(), msg.end());
    std::vector<unsigned char> sig;
    bool found = false;

    for (int i = 1; i <=20; ++i) {
        sig.clear();
        BOOST_CHECK(key.Sign(msg_hash, sig, false, i));
        found = sig[3] == 0x21 && sig[4] == 0x00;
        if (found) {
            break;
        }
    }
    BOOST_CHECK(found);

    // When entropy is not specified, we should always see low R signatures that are less than 70 bytes in 256 tries
    // We should see at least one signature that is less than 70 bytes.
    found = true;
    bool found_small = false;
    for (int i = 0; i < 256; ++i) {
        sig.clear();
        std::string msg = "A message to be signed" + std::to_string(i);
        msg_hash = Hash(msg.begin(), msg.end());
        BOOST_CHECK(key.Sign(msg_hash, sig));
        found = sig[3] == 0x20;
        BOOST_CHECK(sig.size() <= 70);
        found_small |= sig.size() < 70;
    }
    BOOST_CHECK(found);
    BOOST_CHECK(found_small);
}

BOOST_AUTO_TEST_SUITE_END()