Adding instrumentation to locate the source of jankiness.
[chromium-blink-merge.git] / courgette / encoded_program_fuzz_unittest.cc
blob9801fc86b5088466b0fb916f2ae235f487e53b81
1 // Copyright (c) 2011 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 // Fuzz testing for EncodedProgram serialized format and assembly.
6 //
7 // We would like some assurance that if an EncodedProgram is malformed we will
8 // not crash. The EncodedProgram could be malformed either due to malicious
9 // attack to due to an error in patch generation.
11 // We try a lot of arbitrary modifications to the serialized form and make sure
12 // that the outcome is not a crash.
14 #include "base/test/test_suite.h"
16 #include "courgette/base_test_unittest.h"
17 #include "courgette/courgette.h"
18 #include "courgette/streams.h"
20 class DecodeFuzzTest : public BaseTest {
21 public:
22 void FuzzExe(const char *) const;
24 private:
25 void FuzzByte(const std::string& buffer, const std::string& output,
26 size_t index) const;
27 void FuzzBits(const std::string& buffer, const std::string& output,
28 size_t index, int bits_to_flip) const;
30 // Returns true if could assemble, false if rejected.
31 bool TryAssemble(const std::string& buffer, std::string* output) const;
34 // Loads an executable and does fuzz testing in the serialized format.
35 void DecodeFuzzTest::FuzzExe(const char* file_name) const {
36 std::string file1 = FileContents(file_name);
38 const void* original_buffer = file1.c_str();
39 size_t original_length = file1.length();
41 courgette::AssemblyProgram* program = NULL;
42 const courgette::Status parse_status =
43 courgette::ParseDetectedExecutable(original_buffer, original_length,
44 &program);
45 EXPECT_EQ(courgette::C_OK, parse_status);
47 courgette::EncodedProgram* encoded = NULL;
49 const courgette::Status encode_status = Encode(program, &encoded);
50 EXPECT_EQ(courgette::C_OK, encode_status);
52 DeleteAssemblyProgram(program);
54 courgette::SinkStreamSet sinks;
55 const courgette::Status write_status = WriteEncodedProgram(encoded, &sinks);
56 EXPECT_EQ(courgette::C_OK, write_status);
58 DeleteEncodedProgram(encoded);
60 courgette::SinkStream sink;
61 bool can_collect = sinks.CopyTo(&sink);
62 EXPECT_TRUE(can_collect);
64 size_t length = sink.Length();
66 std::string base_buffer(reinterpret_cast<const char*>(sink.Buffer()), length);
67 std::string base_output;
68 bool ok = TryAssemble(base_buffer, &base_output);
69 EXPECT_TRUE(ok);
71 // Now we have a good serialized EncodedProgram in |base_buffer|. Time to
72 // fuzz.
74 // More intense fuzzing on the first part because it contains more control
75 // information like substeam lengths.
76 size_t position = 0;
77 for ( ; position < 100 && position < length; position += 1) {
78 FuzzByte(base_buffer, base_output, position);
80 // We would love to fuzz every position, but it takes too long.
81 for ( ; position < length; position += 900) {
82 FuzzByte(base_buffer, base_output, position);
86 // FuzzByte tries to break the EncodedProgram deserializer and assembler. It
87 // takes a good serialization of and EncodedProgram, flips some bits, and checks
88 // that the behaviour is reasonable. It has testing checks for unreasonable
89 // behaviours.
90 void DecodeFuzzTest::FuzzByte(const std::string& base_buffer,
91 const std::string& base_output,
92 size_t index) const {
93 printf("Fuzzing position %d\n", static_cast<int>(index));
95 // The following 10 values are a compromize between run time and coverage of
96 // the 255 'wrong' values at this byte position.
98 // 0xFF flips all the bits.
99 FuzzBits(base_buffer, base_output, index, 0xFF);
100 // 0x7F flips the most bits without changing Varint32 framing.
101 FuzzBits(base_buffer, base_output, index, 0x7F);
102 // These all flip one bit.
103 FuzzBits(base_buffer, base_output, index, 0x80);
104 FuzzBits(base_buffer, base_output, index, 0x40);
105 FuzzBits(base_buffer, base_output, index, 0x20);
106 FuzzBits(base_buffer, base_output, index, 0x10);
107 FuzzBits(base_buffer, base_output, index, 0x08);
108 FuzzBits(base_buffer, base_output, index, 0x04);
109 FuzzBits(base_buffer, base_output, index, 0x02);
110 FuzzBits(base_buffer, base_output, index, 0x01);
113 // FuzzBits tries to break the EncodedProgram deserializer and assembler. It
114 // takes a good serialization of and EncodedProgram, flips some bits, and checks
115 // that the behaviour is reasonable.
117 // There are EXPECT calls to check for unreasonable behaviour. These are
118 // somewhat arbitrary in that the parameters cannot easily be derived from first
119 // principles. They may need updating as the serialized format evolves.
120 void DecodeFuzzTest::FuzzBits(const std::string& base_buffer,
121 const std::string& base_output,
122 size_t index, int bits_to_flip) const {
123 std::string modified_buffer = base_buffer;
124 std::string modified_output;
125 modified_buffer[index] ^= bits_to_flip;
127 bool ok = TryAssemble(modified_buffer, &modified_output);
129 if (ok) {
130 // We normally expect TryAssemble to fail. But sometimes it succeeds.
131 // What could have happened? We changed one byte in the serialized form:
133 // * If we changed one of the copied bytes, we would see a single byte
134 // change in the output.
135 // * If we changed an address table element, all the references to that
136 // address would be different.
137 // * If we changed a copy count, we would run out of data in some stream,
138 // or leave data remaining, so should not be here.
139 // * If we changed an origin address, it could affect all relocations based
140 // off that address. If no relocations were based off the address then
141 // there will be no changes.
142 // * If we changed an origin address, it could cause some abs32 relocs to
143 // shift from one page to the next, changing the number and layout of
144 // blocks in the base relocation table.
146 // Generated length could vary slightly due to base relocation table layout.
147 // In the worst case the number of base relocation blocks doubles, approx
148 // 12/4096 or 0.3% size of file.
149 size_t base_length = base_output.length();
150 size_t modified_length = modified_output.length();
151 ptrdiff_t diff = base_length - modified_length;
152 if (diff < -200 || diff > 200) {
153 EXPECT_EQ(base_length, modified_length);
156 size_t changed_byte_count = 0;
157 for (size_t i = 0; i < base_length && i < modified_length; ++i) {
158 changed_byte_count += (base_output[i] != modified_output[i]);
161 if (index > 60) { // Beyond the origin addresses ...
162 EXPECT_NE(0U, changed_byte_count); // ... we expect some difference.
164 // Currently all changes are smaller than this number:
165 EXPECT_GE(45000U, changed_byte_count);
169 bool DecodeFuzzTest::TryAssemble(const std::string& buffer,
170 std::string* output) const {
171 courgette::EncodedProgram *encoded = NULL;
172 bool result = false;
174 courgette::SourceStreamSet sources;
175 bool can_get_source_streams = sources.Init(buffer.c_str(), buffer.length());
176 if (can_get_source_streams) {
177 const courgette::Status read_status =
178 ReadEncodedProgram(&sources, &encoded);
179 if (read_status == courgette::C_OK) {
180 courgette::SinkStream assembled;
181 const courgette::Status assemble_status = Assemble(encoded, &assembled);
183 if (assemble_status == courgette::C_OK) {
184 const void* assembled_buffer = assembled.Buffer();
185 size_t assembled_length = assembled.Length();
187 output->clear();
188 output->assign(reinterpret_cast<const char*>(assembled_buffer),
189 assembled_length);
190 result = true;
195 DeleteEncodedProgram(encoded);
197 return result;
200 TEST_F(DecodeFuzzTest, All) {
201 FuzzExe("setup1.exe");
202 FuzzExe("elf-32-1.exe");
205 int main(int argc, char** argv) {
206 return base::TestSuite(argc, argv).Run();