// Copyright 2017 The Crashpad Authors. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include "util/net/http_body_gzip.h" #include #include #include #include #include #include "base/macros.h" #include "base/rand_util.h" #include "base/numerics/safe_conversions.h" #include "gtest/gtest.h" #include "third_party/zlib/zlib_crashpad.h" #include "util/misc/zlib.h" #include "util/net/http_body.h" namespace crashpad { namespace test { namespace { class ScopedZlibInflateStream { public: explicit ScopedZlibInflateStream(z_stream* zlib) : zlib_(zlib) {} ~ScopedZlibInflateStream() { int zr = inflateEnd(zlib_); EXPECT_EQ(Z_OK, zr) << "inflateEnd: " << ZlibErrorString(zr); } private: z_stream* zlib_; // weak DISALLOW_COPY_AND_ASSIGN(ScopedZlibInflateStream); }; void GzipInflate(const std::string& compressed, std::string* decompressed, size_t buf_size) { decompressed->clear(); // There’s got to be at least a small buffer. buf_size = std::max(buf_size, static_cast(1)); std::unique_ptr buf(new uint8_t[buf_size]); z_stream zlib = {}; zlib.zalloc = Z_NULL; zlib.zfree = Z_NULL; zlib.opaque = Z_NULL; zlib.next_in = reinterpret_cast(const_cast(&compressed[0])); zlib.avail_in = base::checked_cast(compressed.size()); zlib.next_out = buf.get(); zlib.avail_out = base::checked_cast(buf_size); int zr = inflateInit2(&zlib, ZlibWindowBitsWithGzipWrapper(0)); ASSERT_EQ(Z_OK, zr) << "inflateInit2: " << ZlibErrorString(zr); ScopedZlibInflateStream zlib_inflate(&zlib); zr = inflate(&zlib, Z_FINISH); ASSERT_EQ(Z_STREAM_END, zr) << "inflate: " << ZlibErrorString(zr); ASSERT_LE(zlib.avail_out, buf_size); decompressed->assign(reinterpret_cast(buf.get()), buf_size - zlib.avail_out); } void TestGzipDeflateInflate(const std::string& string) { std::unique_ptr string_stream( new StringHTTPBodyStream(string)); GzipHTTPBodyStream gzip_stream(std::move(string_stream)); // The minimum size of a gzip wrapper per RFC 1952: a 10-byte header and an // 8-byte trailer. const size_t kGzipHeaderSize = 18; // Per http://www.zlib.net/zlib_tech.html, in the worst case, zlib will store // uncompressed data as-is, at an overhead of 5 bytes per 16384-byte block. // Zero-length input will “compress” to a 2-byte zlib stream. Add the overhead // of the gzip wrapper, assuming no optional fields are present. size_t buf_size = string.size() + kGzipHeaderSize + (string.empty() ? 2 : (((string.size() + 16383) / 16384) * 5)); std::unique_ptr buf(new uint8_t[buf_size]); FileOperationResult compressed_bytes = gzip_stream.GetBytesBuffer(buf.get(), buf_size); ASSERT_NE(compressed_bytes, -1); ASSERT_LE(static_cast(compressed_bytes), buf_size); // Make sure that the stream is really at EOF. uint8_t eof_buf[16]; ASSERT_EQ(0, gzip_stream.GetBytesBuffer(eof_buf, sizeof(eof_buf))); std::string compressed(reinterpret_cast(buf.get()), compressed_bytes); ASSERT_GE(compressed.size(), kGzipHeaderSize); EXPECT_EQ('\37', compressed[0]); EXPECT_EQ('\213', compressed[1]); EXPECT_EQ(Z_DEFLATED, compressed[2]); std::string decompressed; ASSERT_NO_FATAL_FAILURE( GzipInflate(compressed, &decompressed, string.size())); EXPECT_EQ(string, decompressed); // In block mode, compression should be identical. string_stream.reset(new StringHTTPBodyStream(string)); GzipHTTPBodyStream block_gzip_stream(std::move(string_stream)); uint8_t block_buf[4096]; std::string block_compressed; FileOperationResult block_compressed_bytes; while ((block_compressed_bytes = block_gzip_stream.GetBytesBuffer( block_buf, sizeof(block_buf))) > 0) { block_compressed.append(reinterpret_cast(block_buf), block_compressed_bytes); } ASSERT_EQ(0, block_compressed_bytes); EXPECT_EQ(compressed, block_compressed); } std::string MakeString(size_t size) { std::string string; for (size_t i = 0; i < size; ++i) { string.append(1, (i % 256) ^ ((i >> 8) % 256)); } return string; } constexpr size_t kFourKBytes = 4096; constexpr size_t kManyBytes = 375017; TEST(GzipHTTPBodyStream, Empty) { TestGzipDeflateInflate(std::string()); } TEST(GzipHTTPBodyStream, OneByte) { TestGzipDeflateInflate(std::string("Z")); } TEST(GzipHTTPBodyStream, FourKBytes_NUL) { TestGzipDeflateInflate(std::string(kFourKBytes, '\0')); } TEST(GzipHTTPBodyStream, ManyBytes_NUL) { TestGzipDeflateInflate(std::string(kManyBytes, '\0')); } TEST(GzipHTTPBodyStream, FourKBytes_Deterministic) { TestGzipDeflateInflate(MakeString(kFourKBytes)); } TEST(GzipHTTPBodyStream, ManyBytes_Deterministic) { TestGzipDeflateInflate(MakeString(kManyBytes)); } TEST(GzipHTTPBodyStream, FourKBytes_Random) { TestGzipDeflateInflate(base::RandBytesAsString(kFourKBytes)); } TEST(GzipHTTPBodyStream, ManyBytes_Random) { TestGzipDeflateInflate(base::RandBytesAsString(kManyBytes)); } } // namespace } // namespace test } // namespace crashpad