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// Copyright (c) 2012-2022 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 <streams.h>
#include <test/util/random.h>
#include <test/util/setup_common.h>
#include <util/fs.h>
#include <util/strencodings.h>
#include <boost/test/unit_test.hpp>
using namespace std::string_literals;
BOOST_FIXTURE_TEST_SUITE(streams_tests, BasicTestingSetup)
BOOST_AUTO_TEST_CASE(xor_file)
{
fs::path xor_path{m_args.GetDataDirBase() / "test_xor.bin"};
auto raw_file{[&](const auto& mode) { return fsbridge::fopen(xor_path, mode); }};
const std::vector<uint8_t> test1{1, 2, 3};
const std::vector<uint8_t> test2{4, 5};
const std::vector<std::byte> xor_pat{std::byte{0xff}, std::byte{0x00}};
{
// Check errors for missing file
AutoFile xor_file{raw_file("rb"), xor_pat};
BOOST_CHECK_EXCEPTION(xor_file << std::byte{}, std::ios_base::failure, HasReason{"AutoFile::write: file handle is nullpt"});
BOOST_CHECK_EXCEPTION(xor_file >> std::byte{}, std::ios_base::failure, HasReason{"AutoFile::read: file handle is nullpt"});
BOOST_CHECK_EXCEPTION(xor_file.ignore(1), std::ios_base::failure, HasReason{"AutoFile::ignore: file handle is nullpt"});
}
{
#ifdef __MINGW64__
// Temporary workaround for https://github.com/bitcoin/bitcoin/issues/30210
const char* mode = "wb";
#else
const char* mode = "wbx";
#endif
AutoFile xor_file{raw_file(mode), xor_pat};
xor_file << test1 << test2;
}
{
// Read raw from disk
AutoFile non_xor_file{raw_file("rb")};
std::vector<std::byte> raw(7);
non_xor_file >> Span{raw};
BOOST_CHECK_EQUAL(HexStr(raw), "fc01fd03fd04fa");
// Check that no padding exists
BOOST_CHECK_EXCEPTION(non_xor_file.ignore(1), std::ios_base::failure, HasReason{"AutoFile::ignore: end of file"});
}
{
AutoFile xor_file{raw_file("rb"), xor_pat};
std::vector<std::byte> read1, read2;
xor_file >> read1 >> read2;
BOOST_CHECK_EQUAL(HexStr(read1), HexStr(test1));
BOOST_CHECK_EQUAL(HexStr(read2), HexStr(test2));
// Check that eof was reached
BOOST_CHECK_EXCEPTION(xor_file >> std::byte{}, std::ios_base::failure, HasReason{"AutoFile::read: end of file"});
}
{
AutoFile xor_file{raw_file("rb"), xor_pat};
std::vector<std::byte> read2;
// Check that ignore works
xor_file.ignore(4);
xor_file >> read2;
BOOST_CHECK_EQUAL(HexStr(read2), HexStr(test2));
// Check that ignore and read fail now
BOOST_CHECK_EXCEPTION(xor_file.ignore(1), std::ios_base::failure, HasReason{"AutoFile::ignore: end of file"});
BOOST_CHECK_EXCEPTION(xor_file >> std::byte{}, std::ios_base::failure, HasReason{"AutoFile::read: end of file"});
}
}
BOOST_AUTO_TEST_CASE(streams_vector_writer)
{
unsigned char a(1);
unsigned char b(2);
unsigned char bytes[] = { 3, 4, 5, 6 };
std::vector<unsigned char> vch;
// Each test runs twice. Serializing a second time at the same starting
// point should yield the same results, even if the first test grew the
// vector.
VectorWriter{vch, 0, a, b};
BOOST_CHECK((vch == std::vector<unsigned char>{{1, 2}}));
VectorWriter{vch, 0, a, b};
BOOST_CHECK((vch == std::vector<unsigned char>{{1, 2}}));
vch.clear();
VectorWriter{vch, 2, a, b};
BOOST_CHECK((vch == std::vector<unsigned char>{{0, 0, 1, 2}}));
VectorWriter{vch, 2, a, b};
BOOST_CHECK((vch == std::vector<unsigned char>{{0, 0, 1, 2}}));
vch.clear();
vch.resize(5, 0);
VectorWriter{vch, 2, a, b};
BOOST_CHECK((vch == std::vector<unsigned char>{{0, 0, 1, 2, 0}}));
VectorWriter{vch, 2, a, b};
BOOST_CHECK((vch == std::vector<unsigned char>{{0, 0, 1, 2, 0}}));
vch.clear();
vch.resize(4, 0);
VectorWriter{vch, 3, a, b};
BOOST_CHECK((vch == std::vector<unsigned char>{{0, 0, 0, 1, 2}}));
VectorWriter{vch, 3, a, b};
BOOST_CHECK((vch == std::vector<unsigned char>{{0, 0, 0, 1, 2}}));
vch.clear();
vch.resize(4, 0);
VectorWriter{vch, 4, a, b};
BOOST_CHECK((vch == std::vector<unsigned char>{{0, 0, 0, 0, 1, 2}}));
VectorWriter{vch, 4, a, b};
BOOST_CHECK((vch == std::vector<unsigned char>{{0, 0, 0, 0, 1, 2}}));
vch.clear();
VectorWriter{vch, 0, bytes};
BOOST_CHECK((vch == std::vector<unsigned char>{{3, 4, 5, 6}}));
VectorWriter{vch, 0, bytes};
BOOST_CHECK((vch == std::vector<unsigned char>{{3, 4, 5, 6}}));
vch.clear();
vch.resize(4, 8);
VectorWriter{vch, 2, a, bytes, b};
BOOST_CHECK((vch == std::vector<unsigned char>{{8, 8, 1, 3, 4, 5, 6, 2}}));
VectorWriter{vch, 2, a, bytes, b};
BOOST_CHECK((vch == std::vector<unsigned char>{{8, 8, 1, 3, 4, 5, 6, 2}}));
vch.clear();
}
BOOST_AUTO_TEST_CASE(streams_vector_reader)
{
std::vector<unsigned char> vch = {1, 255, 3, 4, 5, 6};
SpanReader reader{vch};
BOOST_CHECK_EQUAL(reader.size(), 6U);
BOOST_CHECK(!reader.empty());
// Read a single byte as an unsigned char.
unsigned char a;
reader >> a;
BOOST_CHECK_EQUAL(a, 1);
BOOST_CHECK_EQUAL(reader.size(), 5U);
BOOST_CHECK(!reader.empty());
// Read a single byte as a int8_t.
int8_t b;
reader >> b;
BOOST_CHECK_EQUAL(b, -1);
BOOST_CHECK_EQUAL(reader.size(), 4U);
BOOST_CHECK(!reader.empty());
// Read a 4 bytes as an unsigned int.
unsigned int c;
reader >> c;
BOOST_CHECK_EQUAL(c, 100992003U); // 3,4,5,6 in little-endian base-256
BOOST_CHECK_EQUAL(reader.size(), 0U);
BOOST_CHECK(reader.empty());
// Reading after end of byte vector throws an error.
signed int d;
BOOST_CHECK_THROW(reader >> d, std::ios_base::failure);
// Read a 4 bytes as a signed int from the beginning of the buffer.
SpanReader new_reader{vch};
new_reader >> d;
BOOST_CHECK_EQUAL(d, 67370753); // 1,255,3,4 in little-endian base-256
BOOST_CHECK_EQUAL(new_reader.size(), 2U);
BOOST_CHECK(!new_reader.empty());
// Reading after end of byte vector throws an error even if the reader is
// not totally empty.
BOOST_CHECK_THROW(new_reader >> d, std::ios_base::failure);
}
BOOST_AUTO_TEST_CASE(streams_vector_reader_rvalue)
{
std::vector<uint8_t> data{0x82, 0xa7, 0x31};
SpanReader reader{data};
uint32_t varint = 0;
// Deserialize into r-value
reader >> VARINT(varint);
BOOST_CHECK_EQUAL(varint, 54321U);
BOOST_CHECK(reader.empty());
}
BOOST_AUTO_TEST_CASE(bitstream_reader_writer)
{
DataStream data{};
BitStreamWriter bit_writer{data};
bit_writer.Write(0, 1);
bit_writer.Write(2, 2);
bit_writer.Write(6, 3);
bit_writer.Write(11, 4);
bit_writer.Write(1, 5);
bit_writer.Write(32, 6);
bit_writer.Write(7, 7);
bit_writer.Write(30497, 16);
bit_writer.Flush();
DataStream data_copy{data};
uint32_t serialized_int1;
data >> serialized_int1;
BOOST_CHECK_EQUAL(serialized_int1, uint32_t{0x7700C35A}); // NOTE: Serialized as LE
uint16_t serialized_int2;
data >> serialized_int2;
BOOST_CHECK_EQUAL(serialized_int2, uint16_t{0x1072}); // NOTE: Serialized as LE
BitStreamReader bit_reader{data_copy};
BOOST_CHECK_EQUAL(bit_reader.Read(1), 0U);
BOOST_CHECK_EQUAL(bit_reader.Read(2), 2U);
BOOST_CHECK_EQUAL(bit_reader.Read(3), 6U);
BOOST_CHECK_EQUAL(bit_reader.Read(4), 11U);
BOOST_CHECK_EQUAL(bit_reader.Read(5), 1U);
BOOST_CHECK_EQUAL(bit_reader.Read(6), 32U);
BOOST_CHECK_EQUAL(bit_reader.Read(7), 7U);
BOOST_CHECK_EQUAL(bit_reader.Read(16), 30497U);
BOOST_CHECK_THROW(bit_reader.Read(8), std::ios_base::failure);
}
BOOST_AUTO_TEST_CASE(streams_serializedata_xor)
{
std::vector<std::byte> in;
// Degenerate case
{
DataStream ds{in};
ds.Xor({0x00, 0x00});
BOOST_CHECK_EQUAL(""s, ds.str());
}
in.push_back(std::byte{0x0f});
in.push_back(std::byte{0xf0});
// Single character key
{
DataStream ds{in};
ds.Xor({0xff});
BOOST_CHECK_EQUAL("\xf0\x0f"s, ds.str());
}
// Multi character key
in.clear();
in.push_back(std::byte{0xf0});
in.push_back(std::byte{0x0f});
{
DataStream ds{in};
ds.Xor({0xff, 0x0f});
BOOST_CHECK_EQUAL("\x0f\x00"s, ds.str());
}
}
BOOST_AUTO_TEST_CASE(streams_buffered_file)
{
fs::path streams_test_filename = m_args.GetDataDirBase() / "streams_test_tmp";
AutoFile file{fsbridge::fopen(streams_test_filename, "w+b")};
// The value at each offset is the offset.
for (uint8_t j = 0; j < 40; ++j) {
file << j;
}
file.seek(0, SEEK_SET);
// The buffer size (second arg) must be greater than the rewind
// amount (third arg).
try {
BufferedFile bfbad{file, 25, 25};
BOOST_CHECK(false);
} catch (const std::exception& e) {
BOOST_CHECK(strstr(e.what(),
"Rewind limit must be less than buffer size") != nullptr);
}
// The buffer is 25 bytes, allow rewinding 10 bytes.
BufferedFile bf{file, 25, 10};
BOOST_CHECK(!bf.eof());
uint8_t i;
bf >> i;
BOOST_CHECK_EQUAL(i, 0);
bf >> i;
BOOST_CHECK_EQUAL(i, 1);
// After reading bytes 0 and 1, we're positioned at 2.
BOOST_CHECK_EQUAL(bf.GetPos(), 2U);
// Rewind to offset 0, ok (within the 10 byte window).
BOOST_CHECK(bf.SetPos(0));
bf >> i;
BOOST_CHECK_EQUAL(i, 0);
// We can go forward to where we've been, but beyond may fail.
BOOST_CHECK(bf.SetPos(2));
bf >> i;
BOOST_CHECK_EQUAL(i, 2);
// If you know the maximum number of bytes that should be
// read to deserialize the variable, you can limit the read
// extent. The current file offset is 3, so the following
// SetLimit() allows zero bytes to be read.
BOOST_CHECK(bf.SetLimit(3));
try {
bf >> i;
BOOST_CHECK(false);
} catch (const std::exception& e) {
BOOST_CHECK(strstr(e.what(),
"Attempt to position past buffer limit") != nullptr);
}
// The default argument removes the limit completely.
BOOST_CHECK(bf.SetLimit());
// The read position should still be at 3 (no change).
BOOST_CHECK_EQUAL(bf.GetPos(), 3U);
// Read from current offset, 3, forward until position 10.
for (uint8_t j = 3; j < 10; ++j) {
bf >> i;
BOOST_CHECK_EQUAL(i, j);
}
BOOST_CHECK_EQUAL(bf.GetPos(), 10U);
// We're guaranteed (just barely) to be able to rewind to zero.
BOOST_CHECK(bf.SetPos(0));
BOOST_CHECK_EQUAL(bf.GetPos(), 0U);
bf >> i;
BOOST_CHECK_EQUAL(i, 0);
// We can set the position forward again up to the farthest
// into the stream we've been, but no farther. (Attempting
// to go farther may succeed, but it's not guaranteed.)
BOOST_CHECK(bf.SetPos(10));
bf >> i;
BOOST_CHECK_EQUAL(i, 10);
BOOST_CHECK_EQUAL(bf.GetPos(), 11U);
// Now it's only guaranteed that we can rewind to offset 1
// (current read position, 11, minus rewind amount, 10).
BOOST_CHECK(bf.SetPos(1));
BOOST_CHECK_EQUAL(bf.GetPos(), 1U);
bf >> i;
BOOST_CHECK_EQUAL(i, 1);
// We can stream into large variables, even larger than
// the buffer size.
BOOST_CHECK(bf.SetPos(11));
{
uint8_t a[40 - 11];
bf >> a;
for (uint8_t j = 0; j < sizeof(a); ++j) {
BOOST_CHECK_EQUAL(a[j], 11 + j);
}
}
BOOST_CHECK_EQUAL(bf.GetPos(), 40U);
// We've read the entire file, the next read should throw.
try {
bf >> i;
BOOST_CHECK(false);
} catch (const std::exception& e) {
BOOST_CHECK(strstr(e.what(),
"BufferedFile::Fill: end of file") != nullptr);
}
// Attempting to read beyond the end sets the EOF indicator.
BOOST_CHECK(bf.eof());
// Still at offset 40, we can go back 10, to 30.
BOOST_CHECK_EQUAL(bf.GetPos(), 40U);
BOOST_CHECK(bf.SetPos(30));
bf >> i;
BOOST_CHECK_EQUAL(i, 30);
BOOST_CHECK_EQUAL(bf.GetPos(), 31U);
// We're too far to rewind to position zero.
BOOST_CHECK(!bf.SetPos(0));
// But we should now be positioned at least as far back as allowed
// by the rewind window (relative to our farthest read position, 40).
BOOST_CHECK(bf.GetPos() <= 30U);
// We can explicitly close the file, or the destructor will do it.
file.fclose();
fs::remove(streams_test_filename);
}
BOOST_AUTO_TEST_CASE(streams_buffered_file_skip)
{
fs::path streams_test_filename = m_args.GetDataDirBase() / "streams_test_tmp";
AutoFile file{fsbridge::fopen(streams_test_filename, "w+b")};
// The value at each offset is the byte offset (e.g. byte 1 in the file has the value 0x01).
for (uint8_t j = 0; j < 40; ++j) {
file << j;
}
file.seek(0, SEEK_SET);
// The buffer is 25 bytes, allow rewinding 10 bytes.
BufferedFile bf{file, 25, 10};
uint8_t i;
// This is like bf >> (7-byte-variable), in that it will cause data
// to be read from the file into memory, but it's not copied to us.
bf.SkipTo(7);
BOOST_CHECK_EQUAL(bf.GetPos(), 7U);
bf >> i;
BOOST_CHECK_EQUAL(i, 7);
// The bytes in the buffer up to offset 7 are valid and can be read.
BOOST_CHECK(bf.SetPos(0));
bf >> i;
BOOST_CHECK_EQUAL(i, 0);
bf >> i;
BOOST_CHECK_EQUAL(i, 1);
bf.SkipTo(11);
bf >> i;
BOOST_CHECK_EQUAL(i, 11);
// SkipTo() honors the transfer limit; we can't position beyond the limit.
bf.SetLimit(13);
try {
bf.SkipTo(14);
BOOST_CHECK(false);
} catch (const std::exception& e) {
BOOST_CHECK(strstr(e.what(), "Attempt to position past buffer limit") != nullptr);
}
// We can position exactly to the transfer limit.
bf.SkipTo(13);
BOOST_CHECK_EQUAL(bf.GetPos(), 13U);
file.fclose();
fs::remove(streams_test_filename);
}
BOOST_AUTO_TEST_CASE(streams_buffered_file_rand)
{
// Make this test deterministic.
SeedRandomForTest(SeedRand::ZEROS);
fs::path streams_test_filename = m_args.GetDataDirBase() / "streams_test_tmp";
for (int rep = 0; rep < 50; ++rep) {
AutoFile file{fsbridge::fopen(streams_test_filename, "w+b")};
size_t fileSize = InsecureRandRange(256);
for (uint8_t i = 0; i < fileSize; ++i) {
file << i;
}
file.seek(0, SEEK_SET);
size_t bufSize = InsecureRandRange(300) + 1;
size_t rewindSize = InsecureRandRange(bufSize);
BufferedFile bf{file, bufSize, rewindSize};
size_t currentPos = 0;
size_t maxPos = 0;
for (int step = 0; step < 100; ++step) {
if (currentPos >= fileSize)
break;
// We haven't read to the end of the file yet.
BOOST_CHECK(!bf.eof());
BOOST_CHECK_EQUAL(bf.GetPos(), currentPos);
// Pretend the file consists of a series of objects of varying
// sizes; the boundaries of the objects can interact arbitrarily
// with the CBufferFile's internal buffer. These first three
// cases simulate objects of various sizes (1, 2, 5 bytes).
switch (InsecureRandRange(6)) {
case 0: {
uint8_t a[1];
if (currentPos + 1 > fileSize)
continue;
bf.SetLimit(currentPos + 1);
bf >> a;
for (uint8_t i = 0; i < 1; ++i) {
BOOST_CHECK_EQUAL(a[i], currentPos);
currentPos++;
}
break;
}
case 1: {
uint8_t a[2];
if (currentPos + 2 > fileSize)
continue;
bf.SetLimit(currentPos + 2);
bf >> a;
for (uint8_t i = 0; i < 2; ++i) {
BOOST_CHECK_EQUAL(a[i], currentPos);
currentPos++;
}
break;
}
case 2: {
uint8_t a[5];
if (currentPos + 5 > fileSize)
continue;
bf.SetLimit(currentPos + 5);
bf >> a;
for (uint8_t i = 0; i < 5; ++i) {
BOOST_CHECK_EQUAL(a[i], currentPos);
currentPos++;
}
break;
}
case 3: {
// SkipTo is similar to the "read" cases above, except
// we don't receive the data.
size_t skip_length{static_cast<size_t>(InsecureRandRange(5))};
if (currentPos + skip_length > fileSize) continue;
bf.SetLimit(currentPos + skip_length);
bf.SkipTo(currentPos + skip_length);
currentPos += skip_length;
break;
}
case 4: {
// Find a byte value (that is at or ahead of the current position).
size_t find = currentPos + InsecureRandRange(8);
if (find >= fileSize)
find = fileSize - 1;
bf.FindByte(std::byte(find));
// The value at each offset is the offset.
BOOST_CHECK_EQUAL(bf.GetPos(), find);
currentPos = find;
bf.SetLimit(currentPos + 1);
uint8_t i;
bf >> i;
BOOST_CHECK_EQUAL(i, currentPos);
currentPos++;
break;
}
case 5: {
size_t requestPos = InsecureRandRange(maxPos + 4);
bool okay = bf.SetPos(requestPos);
// The new position may differ from the requested position
// because we may not be able to rewind beyond the rewind
// window, and we may not be able to move forward beyond the
// farthest position we've reached so far.
currentPos = bf.GetPos();
BOOST_CHECK_EQUAL(okay, currentPos == requestPos);
// Check that we can position within the rewind window.
if (requestPos <= maxPos &&
maxPos > rewindSize &&
requestPos >= maxPos - rewindSize) {
// We requested a position within the rewind window.
BOOST_CHECK(okay);
}
break;
}
}
if (maxPos < currentPos)
maxPos = currentPos;
}
}
fs::remove(streams_test_filename);
}
BOOST_AUTO_TEST_CASE(streams_hashed)
{
DataStream stream{};
HashedSourceWriter hash_writer{stream};
const std::string data{"bitcoin"};
hash_writer << data;
HashVerifier hash_verifier{stream};
std::string result;
hash_verifier >> result;
BOOST_CHECK_EQUAL(data, result);
BOOST_CHECK_EQUAL(hash_writer.GetHash(), hash_verifier.GetHash());
}
BOOST_AUTO_TEST_SUITE_END()
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