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-rw-r--r--src/test/crypto_tests.cpp109
1 files changed, 75 insertions, 34 deletions
diff --git a/src/test/crypto_tests.cpp b/src/test/crypto_tests.cpp
index 391ad14ffa..cdfc664d56 100644
--- a/src/test/crypto_tests.cpp
+++ b/src/test/crypto_tests.cpp
@@ -1,18 +1,18 @@
-// Copyright (c) 2014-2016 The Bitcoin Core developers
+// Copyright (c) 2014-2017 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 "crypto/aes.h"
-#include "crypto/chacha20.h"
-#include "crypto/ripemd160.h"
-#include "crypto/sha1.h"
-#include "crypto/sha256.h"
-#include "crypto/sha512.h"
-#include "crypto/hmac_sha256.h"
-#include "crypto/hmac_sha512.h"
-#include "random.h"
-#include "utilstrencodings.h"
-#include "test/test_bitcoin.h"
+#include <crypto/aes.h>
+#include <crypto/chacha20.h>
+#include <crypto/ripemd160.h>
+#include <crypto/sha1.h>
+#include <crypto/sha256.h>
+#include <crypto/sha512.h>
+#include <crypto/hmac_sha256.h>
+#include <crypto/hmac_sha512.h>
+#include <random.h>
+#include <utilstrencodings.h>
+#include <test/test_bitcoin.h>
#include <vector>
@@ -58,12 +58,12 @@ void TestRIPEMD160(const std::string &in, const std::string &hexout) { TestVecto
void TestHMACSHA256(const std::string &hexkey, const std::string &hexin, const std::string &hexout) {
std::vector<unsigned char> key = ParseHex(hexkey);
- TestVector(CHMAC_SHA256(&key[0], key.size()), ParseHex(hexin), ParseHex(hexout));
+ TestVector(CHMAC_SHA256(key.data(), key.size()), ParseHex(hexin), ParseHex(hexout));
}
void TestHMACSHA512(const std::string &hexkey, const std::string &hexin, const std::string &hexout) {
std::vector<unsigned char> key = ParseHex(hexkey);
- TestVector(CHMAC_SHA512(&key[0], key.size()), ParseHex(hexin), ParseHex(hexout));
+ TestVector(CHMAC_SHA512(key.data(), key.size()), ParseHex(hexin), ParseHex(hexout));
}
void TestAES128(const std::string &hexkey, const std::string &hexin, const std::string &hexout)
@@ -76,13 +76,13 @@ void TestAES128(const std::string &hexkey, const std::string &hexin, const std::
assert(key.size() == 16);
assert(in.size() == 16);
assert(correctout.size() == 16);
- AES128Encrypt enc(&key[0]);
+ AES128Encrypt enc(key.data());
buf.resize(correctout.size());
buf2.resize(correctout.size());
- enc.Encrypt(&buf[0], &in[0]);
+ enc.Encrypt(buf.data(), in.data());
BOOST_CHECK_EQUAL(HexStr(buf), HexStr(correctout));
- AES128Decrypt dec(&key[0]);
- dec.Decrypt(&buf2[0], &buf[0]);
+ AES128Decrypt dec(key.data());
+ dec.Decrypt(buf2.data(), buf.data());
BOOST_CHECK_EQUAL(HexStr(buf2), HexStr(in));
}
@@ -96,12 +96,12 @@ void TestAES256(const std::string &hexkey, const std::string &hexin, const std::
assert(key.size() == 32);
assert(in.size() == 16);
assert(correctout.size() == 16);
- AES256Encrypt enc(&key[0]);
+ AES256Encrypt enc(key.data());
buf.resize(correctout.size());
- enc.Encrypt(&buf[0], &in[0]);
+ enc.Encrypt(buf.data(), in.data());
BOOST_CHECK(buf == correctout);
- AES256Decrypt dec(&key[0]);
- dec.Decrypt(&buf[0], &buf[0]);
+ AES256Decrypt dec(key.data());
+ dec.Decrypt(buf.data(), buf.data());
BOOST_CHECK(buf == in);
}
@@ -114,16 +114,16 @@ void TestAES128CBC(const std::string &hexkey, const std::string &hexiv, bool pad
std::vector<unsigned char> realout(in.size() + AES_BLOCKSIZE);
// Encrypt the plaintext and verify that it equals the cipher
- AES128CBCEncrypt enc(&key[0], &iv[0], pad);
- int size = enc.Encrypt(&in[0], in.size(), &realout[0]);
+ AES128CBCEncrypt enc(key.data(), iv.data(), pad);
+ int size = enc.Encrypt(in.data(), in.size(), realout.data());
realout.resize(size);
BOOST_CHECK(realout.size() == correctout.size());
BOOST_CHECK_MESSAGE(realout == correctout, HexStr(realout) + std::string(" != ") + hexout);
// Decrypt the cipher and verify that it equals the plaintext
std::vector<unsigned char> decrypted(correctout.size());
- AES128CBCDecrypt dec(&key[0], &iv[0], pad);
- size = dec.Decrypt(&correctout[0], correctout.size(), &decrypted[0]);
+ AES128CBCDecrypt dec(key.data(), iv.data(), pad);
+ size = dec.Decrypt(correctout.data(), correctout.size(), decrypted.data());
decrypted.resize(size);
BOOST_CHECK(decrypted.size() == in.size());
BOOST_CHECK_MESSAGE(decrypted == in, HexStr(decrypted) + std::string(" != ") + hexin);
@@ -133,12 +133,12 @@ void TestAES128CBC(const std::string &hexkey, const std::string &hexiv, bool pad
{
std::vector<unsigned char> sub(i, in.end());
std::vector<unsigned char> subout(sub.size() + AES_BLOCKSIZE);
- int _size = enc.Encrypt(&sub[0], sub.size(), &subout[0]);
+ int _size = enc.Encrypt(sub.data(), sub.size(), subout.data());
if (_size != 0)
{
subout.resize(_size);
std::vector<unsigned char> subdecrypted(subout.size());
- _size = dec.Decrypt(&subout[0], subout.size(), &subdecrypted[0]);
+ _size = dec.Decrypt(subout.data(), subout.size(), subdecrypted.data());
subdecrypted.resize(_size);
BOOST_CHECK(decrypted.size() == in.size());
BOOST_CHECK_MESSAGE(subdecrypted == sub, HexStr(subdecrypted) + std::string(" != ") + HexStr(sub));
@@ -155,16 +155,16 @@ void TestAES256CBC(const std::string &hexkey, const std::string &hexiv, bool pad
std::vector<unsigned char> realout(in.size() + AES_BLOCKSIZE);
// Encrypt the plaintext and verify that it equals the cipher
- AES256CBCEncrypt enc(&key[0], &iv[0], pad);
- int size = enc.Encrypt(&in[0], in.size(), &realout[0]);
+ AES256CBCEncrypt enc(key.data(), iv.data(), pad);
+ int size = enc.Encrypt(in.data(), in.size(), realout.data());
realout.resize(size);
BOOST_CHECK(realout.size() == correctout.size());
BOOST_CHECK_MESSAGE(realout == correctout, HexStr(realout) + std::string(" != ") + hexout);
// Decrypt the cipher and verify that it equals the plaintext
std::vector<unsigned char> decrypted(correctout.size());
- AES256CBCDecrypt dec(&key[0], &iv[0], pad);
- size = dec.Decrypt(&correctout[0], correctout.size(), &decrypted[0]);
+ AES256CBCDecrypt dec(key.data(), iv.data(), pad);
+ size = dec.Decrypt(correctout.data(), correctout.size(), decrypted.data());
decrypted.resize(size);
BOOST_CHECK(decrypted.size() == in.size());
BOOST_CHECK_MESSAGE(decrypted == in, HexStr(decrypted) + std::string(" != ") + hexin);
@@ -174,12 +174,12 @@ void TestAES256CBC(const std::string &hexkey, const std::string &hexiv, bool pad
{
std::vector<unsigned char> sub(i, in.end());
std::vector<unsigned char> subout(sub.size() + AES_BLOCKSIZE);
- int _size = enc.Encrypt(&sub[0], sub.size(), &subout[0]);
+ int _size = enc.Encrypt(sub.data(), sub.size(), subout.data());
if (_size != 0)
{
subout.resize(_size);
std::vector<unsigned char> subdecrypted(subout.size());
- _size = dec.Decrypt(&subout[0], subout.size(), &subdecrypted[0]);
+ _size = dec.Decrypt(subout.data(), subout.size(), subdecrypted.data());
subdecrypted.resize(_size);
BOOST_CHECK(decrypted.size() == in.size());
BOOST_CHECK_MESSAGE(subdecrypted == sub, HexStr(subdecrypted) + std::string(" != ") + HexStr(sub));
@@ -340,6 +340,22 @@ BOOST_AUTO_TEST_CASE(hmac_sha256_testvectors) {
"647320746f20626520686173686564206265666f7265206265696e6720757365"
"642062792074686520484d414320616c676f726974686d2e",
"9b09ffa71b942fcb27635fbcd5b0e944bfdc63644f0713938a7f51535c3a35e2");
+ // Test case with key length 63 bytes.
+ TestHMACSHA256("4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665"
+ "4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a6566",
+ "7768617420646f2079612077616e7420666f72206e6f7468696e673f",
+ "9de4b546756c83516720a4ad7fe7bdbeac4298c6fdd82b15f895a6d10b0769a6");
+ // Test case with key length 64 bytes.
+ TestHMACSHA256("4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665"
+ "4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665",
+ "7768617420646f2079612077616e7420666f72206e6f7468696e673f",
+ "528c609a4c9254c274585334946b7c2661bad8f1fc406b20f6892478d19163dd");
+ // Test case with key length 65 bytes.
+ TestHMACSHA256("4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665"
+ "4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665"
+ "4a",
+ "7768617420646f2079612077616e7420666f72206e6f7468696e673f",
+ "d06af337f359a2330deffb8e3cbe4b5b7aa8ca1f208528cdbd245d5dc63c4483");
}
BOOST_AUTO_TEST_CASE(hmac_sha512_testvectors) {
@@ -383,6 +399,31 @@ BOOST_AUTO_TEST_CASE(hmac_sha512_testvectors) {
"642062792074686520484d414320616c676f726974686d2e",
"e37b6a775dc87dbaa4dfa9f96e5e3ffddebd71f8867289865df5a32d20cdc944"
"b6022cac3c4982b10d5eeb55c3e4de15134676fb6de0446065c97440fa8c6a58");
+ // Test case with key length 127 bytes.
+ TestHMACSHA512("4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665"
+ "4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665"
+ "4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665"
+ "4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a6566",
+ "7768617420646f2079612077616e7420666f72206e6f7468696e673f",
+ "267424dfb8eeb999f3e5ec39a4fe9fd14c923e6187e0897063e5c9e02b2e624a"
+ "c04413e762977df71a9fb5d562b37f89dfdfb930fce2ed1fa783bbc2a203d80e");
+ // Test case with key length 128 bytes.
+ TestHMACSHA512("4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665"
+ "4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665"
+ "4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665"
+ "4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665",
+ "7768617420646f2079612077616e7420666f72206e6f7468696e673f",
+ "43aaac07bb1dd97c82c04df921f83b16a68d76815cd1a30d3455ad43a3d80484"
+ "2bb35462be42cc2e4b5902de4d204c1c66d93b47d1383e3e13a3788687d61258");
+ // Test case with key length 129 bytes.
+ TestHMACSHA512("4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665"
+ "4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665"
+ "4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665"
+ "4a6566654a6566654a6566654a6566654a6566654a6566654a6566654a656665"
+ "4a",
+ "7768617420646f2079612077616e7420666f72206e6f7468696e673f",
+ "0b273325191cfc1b4b71d5075c8fcad67696309d292b1dad2cd23983a35feb8e"
+ "fb29795e79f2ef27f68cb1e16d76178c307a67beaad9456fac5fdffeadb16e2c");
}
BOOST_AUTO_TEST_CASE(aes_testvectors) {