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| 1 // Copyright 2016 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. |
| 4 |
| 5 #include "net/http2/tools/random_decoder_test.h" |
| 6 |
| 7 #include <stddef.h> |
| 8 |
| 9 #include <algorithm> |
| 10 #include <memory> |
| 11 |
| 12 #include "base/logging.h" |
| 13 #include "base/strings/string_number_conversions.h" |
| 14 #include "base/strings/string_piece.h" |
| 15 #include "net/http2/decoder/decode_buffer.h" |
| 16 #include "net/http2/decoder/decode_status.h" |
| 17 #include "net/http2/http2_constants.h" |
| 18 #include "net/http2/tools/failure.h" |
| 19 #include "testing/gtest/include/gtest/gtest.h" |
| 20 |
| 21 // It's rather time consuming to decode large buffers one at a time, |
| 22 // especially with the log level cranked up. So, by default we don't do |
| 23 // that unless explicitly requested. |
| 24 |
| 25 using ::testing::AssertionFailure; |
| 26 using ::testing::AssertionResult; |
| 27 using ::testing::AssertionSuccess; |
| 28 using base::StringPiece; |
| 29 |
| 30 namespace net { |
| 31 namespace test { |
| 32 |
| 33 std::string HexEncode(StringPiece s) { |
| 34 return base::HexEncode(s.data(), s.size()); |
| 35 } |
| 36 |
| 37 RandomDecoderTest::RandomDecoderTest() {} |
| 38 |
| 39 bool RandomDecoderTest::StopDecodeOnDone() { |
| 40 return stop_decode_on_done_; |
| 41 } |
| 42 |
| 43 DecodeStatus RandomDecoderTest::DecodeSegments(DecodeBuffer* original, |
| 44 const SelectSize& select_size) { |
| 45 DecodeStatus status = DecodeStatus::kDecodeInProgress; |
| 46 bool first = true; |
| 47 VLOG(2) << "DecodeSegments: input size=" << original->Remaining(); |
| 48 while (first || original->HasData()) { |
| 49 size_t remaining = original->Remaining(); |
| 50 size_t size = std::min( |
| 51 remaining, select_size.Run(first, original->Offset(), remaining)); |
| 52 DecodeBuffer db(original->cursor(), size); |
| 53 VLOG(2) << "Decoding " << size << " bytes of " << remaining << " remaining"; |
| 54 if (first) { |
| 55 first = false; |
| 56 status = StartDecoding(&db); |
| 57 } else { |
| 58 status = ResumeDecoding(&db); |
| 59 } |
| 60 // A decoder MUST consume some input (if any is available), else we could |
| 61 // get stuck in infinite loops. |
| 62 if (db.Offset() == 0 && db.HasData() && |
| 63 status != DecodeStatus::kDecodeError) { |
| 64 ADD_FAILURE() << "Decoder didn't make any progress; db.FullSize=" |
| 65 << db.FullSize() |
| 66 << " original.Offset=" << original->Offset(); |
| 67 return DecodeStatus::kDecodeError; |
| 68 } |
| 69 original->AdvanceCursor(db.Offset()); |
| 70 switch (status) { |
| 71 case DecodeStatus::kDecodeDone: |
| 72 if (original->Empty() || StopDecodeOnDone()) { |
| 73 return DecodeStatus::kDecodeDone; |
| 74 } |
| 75 continue; |
| 76 case DecodeStatus::kDecodeInProgress: |
| 77 continue; |
| 78 case DecodeStatus::kDecodeError: |
| 79 return DecodeStatus::kDecodeError; |
| 80 } |
| 81 } |
| 82 return status; |
| 83 } |
| 84 |
| 85 // Decode |original| multiple times, with different segmentations, validating |
| 86 // after each decode, returning on the first failure. |
| 87 AssertionResult RandomDecoderTest::DecodeAndValidateSeveralWays( |
| 88 DecodeBuffer* original, |
| 89 bool return_non_zero_on_first, |
| 90 const Validator& validator) { |
| 91 const uint32_t original_remaining = original->Remaining(); |
| 92 VLOG(1) << "DecodeAndValidateSeveralWays - Start, remaining = " |
| 93 << original_remaining; |
| 94 uint32_t first_consumed; |
| 95 { |
| 96 // Fast decode (no stopping unless decoder does so). |
| 97 DecodeBuffer input(original->cursor(), original_remaining); |
| 98 VLOG(2) << "DecodeSegmentsAndValidate with SelectRemaining"; |
| 99 VERIFY_SUCCESS(DecodeSegmentsAndValidate( |
| 100 &input, base::Bind(&SelectRemaining), validator)) |
| 101 << "\nFailed with SelectRemaining; input.Offset=" << input.Offset() |
| 102 << "; input.Remaining=" << input.Remaining(); |
| 103 first_consumed = input.Offset(); |
| 104 } |
| 105 if (original_remaining <= 30) { |
| 106 // Decode again, one byte at a time. |
| 107 DecodeBuffer input(original->cursor(), original_remaining); |
| 108 VLOG(2) << "DecodeSegmentsAndValidate with SelectOne"; |
| 109 VERIFY_SUCCESS( |
| 110 DecodeSegmentsAndValidate(&input, base::Bind(&SelectOne), validator)) |
| 111 << "\nFailed with SelectOne; input.Offset=" << input.Offset() |
| 112 << "; input.Remaining=" << input.Remaining(); |
| 113 VERIFY_EQ(first_consumed, input.Offset()) << "\nFailed with SelectOne"; |
| 114 } |
| 115 if (original_remaining <= 20) { |
| 116 // Decode again, one or zero bytes at a time. |
| 117 DecodeBuffer input(original->cursor(), original_remaining); |
| 118 VLOG(2) << "DecodeSegmentsAndValidate with SelectZeroAndOne"; |
| 119 bool zero_next = !return_non_zero_on_first; |
| 120 VERIFY_SUCCESS(DecodeSegmentsAndValidate( |
| 121 &input, base::Bind(&SelectZeroAndOne, &zero_next), validator)) |
| 122 << "\nFailed with SelectZeroAndOne"; |
| 123 VERIFY_EQ(first_consumed, input.Offset()) |
| 124 << "\nFailed with SelectZeroAndOne; input.Offset=" << input.Offset() |
| 125 << "; input.Remaining=" << input.Remaining(); |
| 126 } |
| 127 { |
| 128 // Decode again, with randomly selected segment sizes. |
| 129 DecodeBuffer input(original->cursor(), original_remaining); |
| 130 VLOG(2) << "DecodeSegmentsAndValidate with SelectRandom"; |
| 131 VERIFY_SUCCESS(DecodeSegmentsAndValidate( |
| 132 &input, base::Bind(&RandomDecoderTest::SelectRandom, |
| 133 base::Unretained(this), return_non_zero_on_first), |
| 134 validator)) |
| 135 << "\nFailed with SelectRandom; input.Offset=" << input.Offset() |
| 136 << "; input.Remaining=" << input.Remaining(); |
| 137 VERIFY_EQ(first_consumed, input.Offset()) << "\nFailed with SelectRandom"; |
| 138 } |
| 139 VERIFY_EQ(original_remaining, original->Remaining()); |
| 140 original->AdvanceCursor(first_consumed); |
| 141 VLOG(1) << "DecodeAndValidateSeveralWays - SUCCESS"; |
| 142 return ::testing::AssertionSuccess(); |
| 143 } |
| 144 |
| 145 // static |
| 146 size_t RandomDecoderTest::SelectZeroAndOne(bool* zero_next, |
| 147 bool first, |
| 148 size_t offset, |
| 149 size_t remaining) { |
| 150 if (*zero_next) { |
| 151 *zero_next = false; |
| 152 return 0; |
| 153 } else { |
| 154 *zero_next = true; |
| 155 return 1; |
| 156 } |
| 157 } |
| 158 |
| 159 size_t RandomDecoderTest::SelectRandom(bool return_non_zero_on_first, |
| 160 bool first, |
| 161 size_t offset, |
| 162 size_t remaining) { |
| 163 uint32_t r = random_.Rand32(); |
| 164 if (first && return_non_zero_on_first) { |
| 165 CHECK_LT(0u, remaining); |
| 166 if (remaining == 1) { |
| 167 return 1; |
| 168 } |
| 169 return 1 + (r % remaining); // size in range [1, remaining). |
| 170 } |
| 171 return r % (remaining + 1); // size in range [0, remaining]. |
| 172 } |
| 173 |
| 174 uint32_t RandomDecoderTest::RandStreamId() { |
| 175 return random_.Rand32() & StreamIdMask(); |
| 176 } |
| 177 |
| 178 } // namespace test |
| 179 } // namespace net |
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