| // Copyright 2008 Google Inc. |
| // Author: Lincoln Smith |
| // |
| // 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 <config.h> |
| #include "google/vcdecoder.h" |
| #include <string> |
| #include "codetable.h" |
| #include "testing.h" |
| #include "vcdecoder_test.h" |
| #include "vcdiff_defs.h" // VCD_SOURCE |
| |
| namespace open_vcdiff { |
| namespace { |
| |
| // Use the interleaved file header with the standard encoding. Should work. |
| class VCDiffDecoderInterleavedAllowedButNotUsed |
| : public VCDiffStandardDecoderTest { |
| public: |
| VCDiffDecoderInterleavedAllowedButNotUsed() { |
| UseInterleavedFileHeader(); |
| } |
| virtual ~VCDiffDecoderInterleavedAllowedButNotUsed() { } |
| }; |
| |
| TEST_F(VCDiffDecoderInterleavedAllowedButNotUsed, Decode) { |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(delta_file_.data(), |
| delta_file_.size(), |
| &output_)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| TEST_F(VCDiffDecoderInterleavedAllowedButNotUsed, DecodeWithChecksum) { |
| ComputeAndAddChecksum(); |
| InitializeDeltaFile(); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(delta_file_.data(), |
| delta_file_.size(), |
| &output_)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| typedef VCDiffDecoderInterleavedAllowedButNotUsed |
| VCDiffDecoderInterleavedAllowedButNotUsedByteByByte; |
| |
| TEST_F(VCDiffDecoderInterleavedAllowedButNotUsedByteByByte, Decode) { |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| for (size_t i = 0; i < delta_file_.size(); ++i) { |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], 1, &output_)); |
| } |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| TEST_F(VCDiffDecoderInterleavedAllowedButNotUsedByteByByte, |
| DecodeWithChecksum) { |
| ComputeAndAddChecksum(); |
| InitializeDeltaFile(); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| for (size_t i = 0; i < delta_file_.size(); ++i) { |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], 1, &output_)); |
| } |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| // Use the standard file header with the interleaved encoding. Should fail. |
| class VCDiffDecoderInterleavedUsedButNotSupported |
| : public VCDiffInterleavedDecoderTest { |
| public: |
| VCDiffDecoderInterleavedUsedButNotSupported() { |
| UseStandardFileHeader(); |
| } |
| virtual ~VCDiffDecoderInterleavedUsedButNotSupported() { } |
| }; |
| |
| TEST_F(VCDiffDecoderInterleavedUsedButNotSupported, DecodeShouldFail) { |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_FALSE(decoder_.DecodeChunk(delta_file_.data(), |
| delta_file_.size(), |
| &output_)); |
| EXPECT_EQ("", output_); |
| } |
| |
| TEST_F(VCDiffDecoderInterleavedUsedButNotSupported, |
| DecodeByteByByteShouldFail) { |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| bool failed = false; |
| for (size_t i = 0; i < delta_file_.size(); ++i) { |
| if (!decoder_.DecodeChunk(&delta_file_[i], 1, &output_)) { |
| failed = true; |
| break; |
| } |
| } |
| EXPECT_TRUE(failed); |
| // The decoder should not create more target bytes than were expected. |
| EXPECT_GE(expected_target_.size(), output_.size()); |
| } |
| |
| // Divides up the standard encoding into eight separate delta file windows. |
| // Each delta instruction appears in its own window. |
| class VCDiffStandardWindowDecoderTest : public VCDiffDecoderTest { |
| protected: |
| static const size_t kWindow2Size = 61; |
| |
| VCDiffStandardWindowDecoderTest(); |
| virtual ~VCDiffStandardWindowDecoderTest() {} |
| |
| private: |
| static const char kWindowBody[]; |
| }; |
| |
| const size_t VCDiffStandardWindowDecoderTest::kWindow2Size; |
| |
| const char VCDiffStandardWindowDecoderTest::kWindowBody[] = { |
| // Window 1: |
| VCD_SOURCE, // Win_Indicator: take source from dictionary |
| FirstByteOfStringLength(kDictionary), // Source segment size |
| SecondByteOfStringLength(kDictionary), |
| 0x00, // Source segment position: start of dictionary |
| 0x08, // Length of the delta encoding |
| 0x1C, // Size of the target window (28) |
| 0x00, // Delta_indicator (no compression) |
| 0x00, // length of data for ADDs and RUNs |
| 0x02, // length of instructions section |
| 0x01, // length of addresses for COPYs |
| // No data for ADDs and RUNs |
| // Instructions and sizes (length 2) |
| 0x13, // VCD_COPY mode VCD_SELF, size 0 |
| 0x1C, // Size of COPY (28) |
| // Addresses for COPYs (length 1) |
| 0x00, // Start of dictionary |
| // Window 2: |
| 0x00, // Win_Indicator: No source segment (ADD only) |
| 0x44, // Length of the delta encoding |
| static_cast<char>(kWindow2Size), // Size of the target window (61) |
| 0x00, // Delta_indicator (no compression) |
| 0x3D, // length of data for ADDs and RUNs |
| 0x02, // length of instructions section |
| 0x00, // length of addresses for COPYs |
| // Data for ADD (length 61) |
| ' ', 'I', ' ', 'h', 'a', 'v', 'e', ' ', 's', 'a', 'i', 'd', ' ', |
| 'i', 't', ' ', 't', 'w', 'i', 'c', 'e', ':', '\n', |
| 'T', 'h', 'a', 't', ' ', |
| 'a', 'l', 'o', 'n', 'e', ' ', 's', 'h', 'o', 'u', 'l', 'd', ' ', |
| 'e', 'n', 'c', 'o', 'u', 'r', 'a', 'g', 'e', ' ', |
| 't', 'h', 'e', ' ', 'c', 'r', 'e', 'w', '.', '\n', |
| // Instructions and sizes (length 2) |
| 0x01, // VCD_ADD size 0 |
| 0x3D, // Size of ADD (61) |
| // No addresses for COPYs |
| // Window 3: |
| VCD_TARGET, // Win_Indicator: take source from decoded data |
| 0x59, // Source segment size: length of data decoded so far |
| 0x00, // Source segment position: start of decoded data |
| 0x08, // Length of the delta encoding |
| 0x2C, // Size of the target window |
| 0x00, // Delta_indicator (no compression) |
| 0x00, // length of data for ADDs and RUNs |
| 0x02, // length of instructions section |
| 0x01, // length of addresses for COPYs |
| // No data for ADDs and RUNs |
| // Instructions and sizes (length 2) |
| 0x23, // VCD_COPY mode VCD_HERE, size 0 |
| 0x2C, // Size of COPY (44) |
| // Addresses for COPYs (length 1) |
| 0x58, // HERE mode address (27+61 back from here_address) |
| // Window 4: |
| VCD_TARGET, // Win_Indicator: take source from decoded data |
| 0x05, // Source segment size: only 5 bytes needed for this COPY |
| 0x2E, // Source segment position: offset for COPY |
| 0x09, // Length of the delta encoding |
| 0x07, // Size of the target window |
| 0x00, // Delta_indicator (no compression) |
| 0x02, // length of data for ADDs and RUNs |
| 0x01, // length of instructions section |
| 0x01, // length of addresses for COPYs |
| // Data for ADD (length 2) |
| 'h', 'r', |
| // Instructions and sizes (length 1) |
| 0xA7, // VCD_ADD size 2 + VCD_COPY mode SELF size 5 |
| // Addresses for COPYs (length 1) |
| 0x00, // SELF mode address (start of source segment) |
| // Window 5: |
| 0x00, // Win_Indicator: No source segment (ADD only) |
| 0x0F, // Length of the delta encoding |
| 0x09, // Size of the target window |
| 0x00, // Delta_indicator (no compression) |
| 0x09, // length of data for ADDs and RUNs |
| 0x01, // length of instructions section |
| 0x00, // length of addresses for COPYs |
| // Data for ADD (length 9) |
| 'W', 'h', 'a', 't', ' ', 'I', ' ', 't', 'e', |
| // Instructions and sizes (length 1) |
| 0x0A, // VCD_ADD size 9 |
| // No addresses for COPYs |
| // Window 6: |
| 0x00, // Win_Indicator: No source segment (RUN only) |
| 0x08, // Length of the delta encoding |
| 0x02, // Size of the target window |
| 0x00, // Delta_indicator (no compression) |
| 0x01, // length of data for ADDs and RUNs |
| 0x02, // length of instructions section |
| 0x00, // length of addresses for COPYs |
| // Data for RUN (length 1) |
| 'l', |
| // Instructions and sizes (length 2) |
| 0x00, // VCD_RUN size 0 |
| 0x02, // Size of RUN (2) |
| // No addresses for COPYs |
| // Window 7: |
| 0x00, // Win_Indicator: No source segment (ADD only) |
| 0x22, // Length of the delta encoding |
| 0x1B, // Size of the target window |
| 0x00, // Delta_indicator (no compression) |
| 0x1B, // length of data for ADDs and RUNs |
| 0x02, // length of instructions section |
| 0x00, // length of addresses for COPYs |
| // Data for ADD: 4th section (length 27) |
| ' ', 'y', 'o', 'u', ' ', |
| 't', 'h', 'r', 'e', 'e', ' ', 't', 'i', 'm', 'e', 's', ' ', 'i', 's', ' ', |
| 't', 'r', 'u', 'e', '.', '\"', '\n', |
| // Instructions and sizes (length 2) |
| 0x01, // VCD_ADD size 0 |
| 0x1B, // Size of ADD (27) |
| // No addresses for COPYs |
| }; |
| |
| VCDiffStandardWindowDecoderTest::VCDiffStandardWindowDecoderTest() { |
| UseStandardFileHeader(); |
| delta_window_body_.assign(kWindowBody, sizeof(kWindowBody)); |
| } |
| |
| TEST_F(VCDiffStandardWindowDecoderTest, Decode) { |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(delta_file_.data(), |
| delta_file_.size(), |
| &output_)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| // Bug 1287926: If DecodeChunk() stops in the middle of the window header, |
| // and the expected size of the current target window is smaller than the |
| // cumulative target bytes decoded so far, an underflow occurs and the decoder |
| // tries to allocate ~MAX_INT bytes. |
| TEST_F(VCDiffStandardWindowDecoderTest, DecodeBreakInFourthWindowHeader) { |
| // Parse file header + first two windows. |
| const size_t chunk_1_size = delta_file_header_.size() + 83; |
| // Parse third window, plus everything up to "Size of the target window" field |
| // of fourth window, but do not parse complete header of fourth window. |
| const size_t chunk_2_size = 12 + 5; |
| CHECK_EQ(VCD_TARGET, static_cast<unsigned char>(delta_file_[chunk_1_size])); |
| CHECK_EQ(0x00, static_cast<int>(delta_file_[chunk_1_size + chunk_2_size])); |
| string output_chunk1, output_chunk2, output_chunk3; |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[0], |
| chunk_1_size, |
| &output_chunk1)); |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[chunk_1_size], |
| chunk_2_size, |
| &output_chunk2)); |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[chunk_1_size + chunk_2_size], |
| delta_file_.size() |
| - (chunk_1_size + chunk_2_size), |
| &output_chunk3)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), |
| output_chunk1 + output_chunk2 + output_chunk3); |
| } |
| |
| TEST_F(VCDiffStandardWindowDecoderTest, DecodeChunkNoVcdTargetAllowed) { |
| decoder_.SetAllowVcdTarget(false); |
| // Parse file header + first two windows. |
| const size_t chunk_1_size = delta_file_header_.size() + 83; |
| // The third window begins with Win_Indicator = VCD_TARGET which is not |
| // allowed. |
| CHECK_EQ(VCD_TARGET, static_cast<unsigned char>(delta_file_[chunk_1_size])); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[0], chunk_1_size, &output_)); |
| // Just parsing one more byte (the VCD_TARGET) should result in an error. |
| EXPECT_FALSE(decoder_.DecodeChunk(&delta_file_[chunk_1_size], 1, &output_)); |
| // The target data for the first two windows should have been output. |
| EXPECT_EQ(expected_target_.substr(0, 89).c_str(), output_); |
| } |
| |
| TEST_F(VCDiffStandardWindowDecoderTest, DecodeInTwoParts) { |
| const size_t delta_file_size = delta_file_.size(); |
| for (size_t i = 1; i < delta_file_size; i++) { |
| string output_chunk1, output_chunk2; |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[0], |
| i, |
| &output_chunk1)); |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], |
| delta_file_size - i, |
| &output_chunk2)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_chunk1 + output_chunk2); |
| } |
| } |
| |
| TEST_F(VCDiffStandardWindowDecoderTest, DecodeInThreeParts) { |
| const size_t delta_file_size = delta_file_.size(); |
| for (size_t i = 1; i < delta_file_size - 1; i++) { |
| for (size_t j = i + 1; j < delta_file_size; j++) { |
| string output_chunk1, output_chunk2, output_chunk3; |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[0], |
| i, |
| &output_chunk1)); |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], |
| j - i, |
| &output_chunk2)); |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[j], |
| delta_file_size - j, |
| &output_chunk3)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), |
| output_chunk1 + output_chunk2 + output_chunk3); |
| } |
| } |
| } |
| |
| // For the window test, the maximum target window size is much smaller than the |
| // target file size. (The largest window is Window 2, with 61 target bytes.) |
| // Use the minimum values possible. |
| TEST_F(VCDiffStandardWindowDecoderTest, TargetMatchesWindowSizeLimit) { |
| decoder_.SetMaximumTargetWindowSize(kWindow2Size); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(delta_file_.data(), |
| delta_file_.size(), |
| &output_)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| TEST_F(VCDiffStandardWindowDecoderTest, TargetMatchesFileSizeLimit) { |
| decoder_.SetMaximumTargetFileSize(expected_target_.size()); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(delta_file_.data(), |
| delta_file_.size(), |
| &output_)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| TEST_F(VCDiffStandardWindowDecoderTest, TargetExceedsWindowSizeLimit) { |
| decoder_.SetMaximumTargetWindowSize(kWindow2Size - 1); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_FALSE(decoder_.DecodeChunk(delta_file_.data(), |
| delta_file_.size(), |
| &output_)); |
| EXPECT_EQ("", output_); |
| } |
| |
| TEST_F(VCDiffStandardWindowDecoderTest, TargetExceedsFileSizeLimit) { |
| decoder_.SetMaximumTargetFileSize(expected_target_.size() - 1); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_FALSE(decoder_.DecodeChunk(delta_file_.data(), |
| delta_file_.size(), |
| &output_)); |
| EXPECT_EQ("", output_); |
| } |
| |
| typedef VCDiffStandardWindowDecoderTest |
| VCDiffStandardWindowDecoderTestByteByByte; |
| |
| TEST_F(VCDiffStandardWindowDecoderTestByteByByte, Decode) { |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| for (size_t i = 0; i < delta_file_.size(); ++i) { |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], 1, &output_)); |
| } |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| TEST_F(VCDiffStandardWindowDecoderTestByteByByte, DecodeExplicitVcdTarget) { |
| decoder_.SetAllowVcdTarget(true); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| for (size_t i = 0; i < delta_file_.size(); ++i) { |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], 1, &output_)); |
| } |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| // Windows 3 and 4 use the VCD_TARGET flag, so decoder should signal an error. |
| TEST_F(VCDiffStandardWindowDecoderTestByteByByte, DecodeNoVcdTarget) { |
| decoder_.SetAllowVcdTarget(false); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| size_t i = 0; |
| for (; i < delta_file_.size(); ++i) { |
| if (!decoder_.DecodeChunk(&delta_file_[i], 1, &output_)) { |
| break; |
| } |
| } |
| // The failure should occur just at the position of the first VCD_TARGET. |
| EXPECT_EQ(delta_file_header_.size() + 83, i); |
| // The target data for the first two windows should have been output. |
| EXPECT_EQ(expected_target_.substr(0, 89).c_str(), output_); |
| } |
| |
| // Divides up the interleaved encoding into eight separate delta file windows. |
| class VCDiffInterleavedWindowDecoderTest |
| : public VCDiffStandardWindowDecoderTest { |
| protected: |
| VCDiffInterleavedWindowDecoderTest(); |
| virtual ~VCDiffInterleavedWindowDecoderTest() {} |
| private: |
| static const char kWindowBody[]; |
| }; |
| |
| const char VCDiffInterleavedWindowDecoderTest::kWindowBody[] = { |
| // Window 1: |
| VCD_SOURCE, // Win_Indicator: take source from dictionary |
| FirstByteOfStringLength(kDictionary), // Source segment size |
| SecondByteOfStringLength(kDictionary), |
| 0x00, // Source segment position: start of dictionary |
| 0x08, // Length of the delta encoding |
| 0x1C, // Size of the target window (28) |
| 0x00, // Delta_indicator (no compression) |
| 0x00, // length of data for ADDs and RUNs |
| 0x03, // length of instructions section |
| 0x00, // length of addresses for COPYs |
| 0x13, // VCD_COPY mode VCD_SELF, size 0 |
| 0x1C, // Size of COPY (28) |
| 0x00, // Start of dictionary |
| // Window 2: |
| 0x00, // Win_Indicator: No source segment (ADD only) |
| 0x44, // Length of the delta encoding |
| 0x3D, // Size of the target window (61) |
| 0x00, // Delta_indicator (no compression) |
| 0x00, // length of data for ADDs and RUNs |
| 0x3F, // length of instructions section |
| 0x00, // length of addresses for COPYs |
| 0x01, // VCD_ADD size 0 |
| 0x3D, // Size of ADD (61) |
| ' ', 'I', ' ', 'h', 'a', 'v', 'e', ' ', 's', 'a', 'i', 'd', ' ', |
| 'i', 't', ' ', 't', 'w', 'i', 'c', 'e', ':', '\n', |
| 'T', 'h', 'a', 't', ' ', |
| 'a', 'l', 'o', 'n', 'e', ' ', 's', 'h', 'o', 'u', 'l', 'd', ' ', |
| 'e', 'n', 'c', 'o', 'u', 'r', 'a', 'g', 'e', ' ', |
| 't', 'h', 'e', ' ', 'c', 'r', 'e', 'w', '.', '\n', |
| // Window 3: |
| VCD_TARGET, // Win_Indicator: take source from decoded data |
| 0x59, // Source segment size: length of data decoded so far |
| 0x00, // Source segment position: start of decoded data |
| 0x08, // Length of the delta encoding |
| 0x2C, // Size of the target window |
| 0x00, // Delta_indicator (no compression) |
| 0x00, // length of data for ADDs and RUNs |
| 0x03, // length of instructions section |
| 0x00, // length of addresses for COPYs |
| 0x23, // VCD_COPY mode VCD_HERE, size 0 |
| 0x2C, // Size of COPY (44) |
| 0x58, // HERE mode address (27+61 back from here_address) |
| // Window 4: |
| VCD_TARGET, // Win_Indicator: take source from decoded data |
| 0x05, // Source segment size: only 5 bytes needed for this COPY |
| 0x2E, // Source segment position: offset for COPY |
| 0x09, // Length of the delta encoding |
| 0x07, // Size of the target window |
| 0x00, // Delta_indicator (no compression) |
| 0x00, // length of data for ADDs and RUNs |
| 0x04, // length of instructions section |
| 0x00, // length of addresses for COPYs |
| 0xA7, // VCD_ADD size 2 + VCD_COPY mode SELF, size 5 |
| 'h', 'r', |
| 0x00, // SELF mode address (start of source segment) |
| // Window 5: |
| 0x00, // Win_Indicator: No source segment (ADD only) |
| 0x0F, // Length of the delta encoding |
| 0x09, // Size of the target window |
| 0x00, // Delta_indicator (no compression) |
| 0x00, // length of data for ADDs and RUNs |
| 0x0A, // length of instructions section |
| 0x00, // length of addresses for COPYs |
| 0x0A, // VCD_ADD size 9 |
| 'W', 'h', 'a', 't', ' ', 'I', ' ', 't', 'e', |
| // Window 6: |
| 0x00, // Win_Indicator: No source segment (RUN only) |
| 0x08, // Length of the delta encoding |
| 0x02, // Size of the target window |
| 0x00, // Delta_indicator (no compression) |
| 0x00, // length of data for ADDs and RUNs |
| 0x03, // length of instructions section |
| 0x00, // length of addresses for COPYs |
| 0x00, // VCD_RUN size 0 |
| 0x02, // Size of RUN (2) |
| 'l', |
| // Window 7: |
| 0x00, // Win_Indicator: No source segment (ADD only) |
| 0x22, // Length of the delta encoding |
| 0x1B, // Size of the target window |
| 0x00, // Delta_indicator (no compression) |
| 0x00, // length of data for ADDs and RUNs |
| 0x1D, // length of instructions section |
| 0x00, // length of addresses for COPYs |
| 0x01, // VCD_ADD size 0 |
| 0x1B, // Size of ADD (27) |
| ' ', 'y', 'o', 'u', ' ', |
| 't', 'h', 'r', 'e', 'e', ' ', 't', 'i', 'm', 'e', 's', ' ', 'i', 's', ' ', |
| 't', 'r', 'u', 'e', '.', '\"', '\n', |
| }; |
| |
| VCDiffInterleavedWindowDecoderTest::VCDiffInterleavedWindowDecoderTest() { |
| UseInterleavedFileHeader(); |
| // delta_window_header_ is left blank. All window headers and bodies are |
| // lumped together in delta_window_body_. This means that AddChecksum() |
| // cannot be used to test the checksum feature. |
| delta_window_body_.assign(kWindowBody, sizeof(kWindowBody)); |
| } |
| |
| TEST_F(VCDiffInterleavedWindowDecoderTest, Decode) { |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(delta_file_.data(), |
| delta_file_.size(), |
| &output_)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| TEST_F(VCDiffInterleavedWindowDecoderTest, DecodeInTwoParts) { |
| const size_t delta_file_size = delta_file_.size(); |
| for (size_t i = 1; i < delta_file_size; i++) { |
| string output_chunk1, output_chunk2; |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[0], |
| i, |
| &output_chunk1)); |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], |
| delta_file_size - i, |
| &output_chunk2)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_chunk1 + output_chunk2); |
| } |
| } |
| |
| TEST_F(VCDiffInterleavedWindowDecoderTest, DecodeInThreeParts) { |
| const size_t delta_file_size = delta_file_.size(); |
| for (size_t i = 1; i < delta_file_size - 1; i++) { |
| for (size_t j = i + 1; j < delta_file_size; j++) { |
| string output_chunk1, output_chunk2, output_chunk3; |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[0], |
| i, |
| &output_chunk1)); |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], |
| j - i, |
| &output_chunk2)); |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[j], |
| delta_file_size - j, |
| &output_chunk3)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), |
| output_chunk1 + output_chunk2 + output_chunk3); |
| } |
| } |
| } |
| |
| typedef VCDiffInterleavedWindowDecoderTest |
| VCDiffInterleavedWindowDecoderTestByteByByte; |
| |
| TEST_F(VCDiffInterleavedWindowDecoderTestByteByByte, Decode) { |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| for (size_t i = 0; i < delta_file_.size(); ++i) { |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], 1, &output_)); |
| } |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| // Windows 3 and 4 use the VCD_TARGET flag, so decoder should signal an error. |
| TEST_F(VCDiffInterleavedWindowDecoderTestByteByByte, DecodeNoVcdTarget) { |
| decoder_.SetAllowVcdTarget(false); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| size_t i = 0; |
| for (; i < delta_file_.size(); ++i) { |
| if (!decoder_.DecodeChunk(&delta_file_[i], 1, &output_)) { |
| break; |
| } |
| } |
| // The failure should occur just at the position of the first VCD_TARGET. |
| EXPECT_EQ(delta_file_header_.size() + 83, i); |
| // The target data for the first two windows should have been output. |
| EXPECT_EQ(expected_target_.substr(0, 89).c_str(), output_); |
| } |
| |
| // The original version of VCDiffDecoder did not allow the caller to modify the |
| // contents of output_string between calls to DecodeChunk(). That restriction |
| // has been removed. Verify that the same result is still produced if the |
| // output string is cleared after each call to DecodeChunk(). Use the window |
| // encoding because it refers back to the previously decoded target data, which |
| // is the feature that would fail if the restriction still applied. |
| // |
| TEST_F(VCDiffInterleavedWindowDecoderTest, OutputStringCanBeModified) { |
| string temp_output; |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| for (size_t i = 0; i < delta_file_.size(); ++i) { |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], 1, &temp_output)); |
| output_.append(temp_output); |
| temp_output.clear(); |
| } |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| TEST_F(VCDiffInterleavedWindowDecoderTest, OutputStringIsPreserved) { |
| const string previous_data("Previous data"); |
| output_ = previous_data; |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| for (size_t i = 0; i < delta_file_.size(); ++i) { |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], 1, &output_)); |
| } |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ((previous_data + expected_target_).c_str(), output_); |
| } |
| |
| // A decode job that tests the ability to COPY across the boundary between |
| // source data and target data. |
| class VCDiffStandardCrossDecoderTest : public VCDiffDecoderTest { |
| protected: |
| static const char kExpectedTarget[]; |
| static const char kWindowHeader[]; |
| static const char kWindowBody[]; |
| |
| VCDiffStandardCrossDecoderTest(); |
| virtual ~VCDiffStandardCrossDecoderTest() {} |
| }; |
| |
| const char VCDiffStandardCrossDecoderTest::kWindowHeader[] = { |
| VCD_SOURCE, // Win_Indicator: take source from dictionary |
| FirstByteOfStringLength(kDictionary), // Source segment size |
| SecondByteOfStringLength(kDictionary), |
| 0x00, // Source segment position: start of dictionary |
| 0x15, // Length of the delta encoding |
| StringLengthAsByte(kExpectedTarget), // Size of the target window |
| 0x00, // Delta_indicator (no compression) |
| 0x07, // length of data for ADDs and RUNs |
| 0x06, // length of instructions section |
| 0x03 // length of addresses for COPYs |
| }; |
| |
| const char VCDiffStandardCrossDecoderTest::kWindowBody[] = { |
| // Data for ADD (length 7) |
| 'S', 'p', 'i', 'd', 'e', 'r', 's', |
| // Instructions and sizes (length 6) |
| 0x01, // VCD_ADD size 0 |
| 0x07, // Size of ADD (7) |
| 0x23, // VCD_COPY mode VCD_HERE, size 0 |
| 0x19, // Size of COPY (25) |
| 0x14, // VCD_COPY mode VCD_SELF, size 4 |
| 0x25, // VCD_COPY mode VCD_HERE, size 5 |
| // Addresses for COPYs (length 3) |
| 0x15, // HERE mode address for 1st copy (21 back from here_address) |
| 0x06, // SELF mode address for 2nd copy |
| 0x14 // HERE mode address for 3rd copy |
| }; |
| |
| const char VCDiffStandardCrossDecoderTest::kExpectedTarget[] = |
| "Spiders in his hair.\n" |
| "Spiders in the air.\n"; |
| |
| VCDiffStandardCrossDecoderTest::VCDiffStandardCrossDecoderTest() { |
| UseStandardFileHeader(); |
| delta_window_header_.assign(kWindowHeader, sizeof(kWindowHeader)); |
| delta_window_body_.assign(kWindowBody, sizeof(kWindowBody)); |
| expected_target_.assign(kExpectedTarget); |
| } |
| |
| TEST_F(VCDiffStandardCrossDecoderTest, Decode) { |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(delta_file_.data(), |
| delta_file_.size(), |
| &output_)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| typedef VCDiffStandardCrossDecoderTest VCDiffStandardCrossDecoderTestByteByByte; |
| |
| TEST_F(VCDiffStandardCrossDecoderTestByteByByte, Decode) { |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| for (size_t i = 0; i < delta_file_.size(); ++i) { |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], 1, &output_)); |
| } |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| // The same decode job that tests the ability to COPY across the boundary |
| // between source data and target data, but using the interleaved format rather |
| // than the standard format. |
| class VCDiffInterleavedCrossDecoderTest |
| : public VCDiffStandardCrossDecoderTest { |
| protected: |
| VCDiffInterleavedCrossDecoderTest(); |
| virtual ~VCDiffInterleavedCrossDecoderTest() {} |
| |
| private: |
| static const char kWindowHeader[]; |
| static const char kWindowBody[]; |
| }; |
| |
| const char VCDiffInterleavedCrossDecoderTest::kWindowHeader[] = { |
| VCD_SOURCE, // Win_Indicator: take source from dictionary |
| FirstByteOfStringLength(kDictionary), // Source segment size |
| SecondByteOfStringLength(kDictionary), |
| 0x00, // Source segment position: start of dictionary |
| 0x15, // Length of the delta encoding |
| StringLengthAsByte(kExpectedTarget), // Size of the target window |
| 0x00, // Delta_indicator (no compression) |
| 0x00, // length of data for ADDs and RUNs |
| 0x10, // length of instructions section |
| 0x00, // length of addresses for COPYs |
| }; |
| |
| const char VCDiffInterleavedCrossDecoderTest::kWindowBody[] = { |
| 0x01, // VCD_ADD size 0 |
| 0x07, // Size of ADD (7) |
| // Data for ADD (length 7) |
| 'S', 'p', 'i', 'd', 'e', 'r', 's', |
| 0x23, // VCD_COPY mode VCD_HERE, size 0 |
| 0x19, // Size of COPY (25) |
| 0x15, // HERE mode address for 1st copy (21 back from here_address) |
| 0x14, // VCD_COPY mode VCD_SELF, size 4 |
| 0x06, // SELF mode address for 2nd copy |
| 0x25, // VCD_COPY mode VCD_HERE, size 5 |
| 0x14 // HERE mode address for 3rd copy |
| }; |
| |
| VCDiffInterleavedCrossDecoderTest::VCDiffInterleavedCrossDecoderTest() { |
| UseInterleavedFileHeader(); |
| delta_window_header_.assign(kWindowHeader, sizeof(kWindowHeader)); |
| delta_window_body_.assign(kWindowBody, sizeof(kWindowBody)); |
| } |
| |
| TEST_F(VCDiffInterleavedCrossDecoderTest, Decode) { |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(delta_file_.data(), |
| delta_file_.size(), |
| &output_)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| TEST_F(VCDiffInterleavedCrossDecoderTest, DecodeWithChecksum) { |
| ComputeAndAddChecksum(); |
| InitializeDeltaFile(); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(delta_file_.data(), |
| delta_file_.size(), |
| &output_)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| typedef VCDiffInterleavedCrossDecoderTest |
| VCDiffInterleavedCrossDecoderTestByteByByte; |
| |
| TEST_F(VCDiffInterleavedCrossDecoderTestByteByByte, Decode) { |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| for (size_t i = 0; i < delta_file_.size(); ++i) { |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], 1, &output_)); |
| } |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| TEST_F(VCDiffInterleavedCrossDecoderTestByteByByte, DecodeWithChecksum) { |
| ComputeAndAddChecksum(); |
| InitializeDeltaFile(); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| for (size_t i = 0; i < delta_file_.size(); ++i) { |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], 1, &output_)); |
| } |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| // Test using a custom code table and custom cache sizes with interleaved |
| // format. |
| class VCDiffCustomCodeTableDecoderTest : public VCDiffInterleavedDecoderTest { |
| protected: |
| static const char kFileHeader[]; |
| static const char kWindowHeader[]; |
| static const char kWindowBody[]; |
| static const char kEncodedCustomCodeTable[]; |
| |
| VCDiffCustomCodeTableDecoderTest(); |
| virtual ~VCDiffCustomCodeTableDecoderTest() {} |
| }; |
| |
| const char VCDiffCustomCodeTableDecoderTest::kFileHeader[] = { |
| 0xD6, // 'V' | 0x80 |
| 0xC3, // 'C' | 0x80 |
| 0xC4, // 'D' | 0x80 |
| 'S', // SDCH version code |
| 0x02 // Hdr_Indicator: Use custom code table |
| }; |
| |
| // Make a custom code table that includes exactly the instructions we need |
| // to encode the first test's data without using any explicit length values. |
| // Be careful not to replace any existing opcodes that have size 0, |
| // to ensure that the custom code table is valid (can express all possible |
| // values of inst (also known as instruction type) and mode with size 0.) |
| // This encoding uses interleaved format, which is easier to read. |
| // |
| // Here are the changes to the standard code table: |
| // ADD size 2 (opcode 3) => RUN size 2 (inst1[3] = VCD_RUN) |
| // ADD size 16 (opcode 17) => ADD size 27 (size1[17] = 27) |
| // ADD size 17 (opcode 18) => ADD size 61 (size1[18] = 61) |
| // COPY mode 0 size 18 (opcode 34) => COPY mode 0 size 28 (size1[34] = 28) |
| // COPY mode 1 size 18 (opcode 50) => COPY mode 1 size 44 (size1[50] = 44) |
| // |
| const char VCDiffCustomCodeTableDecoderTest::kEncodedCustomCodeTable[] = { |
| 0xD6, // 'V' | 0x80 |
| 0xC3, // 'C' | 0x80 |
| 0xC4, // 'D' | 0x80 |
| 'S', // SDCH version code |
| 0x00, // Hdr_Indicator: no custom code table, no compression |
| VCD_SOURCE, // Win_Indicator: take source from dictionary |
| (sizeof(VCDiffCodeTableData) >> 7) | 0x80, // First byte of table length |
| sizeof(VCDiffCodeTableData) & 0x7F, // Second byte of table length |
| 0x00, // Source segment position: start of default code table |
| 0x1F, // Length of the delta encoding |
| (sizeof(VCDiffCodeTableData) >> 7) | 0x80, // First byte of table length |
| sizeof(VCDiffCodeTableData) & 0x7F, // Second byte of table length |
| 0x00, // Delta_indicator (no compression) |
| 0x00, // length of data for ADDs and RUNs (unused) |
| 0x19, // length of interleaved section |
| 0x00, // length of addresses for COPYs (unused) |
| 0x05, // VCD_ADD size 4 |
| // Data for ADD (length 4) |
| VCD_RUN, VCD_ADD, VCD_ADD, VCD_RUN, |
| 0x13, // VCD_COPY mode VCD_SELF size 0 |
| 0x84, // Size of copy: upper bits (512 - 4 + 17 = 525) |
| 0x0D, // Size of copy: lower bits |
| 0x04, // Address of COPY |
| 0x03, // VCD_ADD size 2 |
| // Data for ADD (length 2) |
| 0x1B, 0x3D, |
| 0x3F, // VCD_COPY mode VCD_NEAR(0) size 15 |
| 0x84, // Address of copy: upper bits (525 + 2 = 527) |
| 0x0F, // Address of copy: lower bits |
| 0x02, // VCD_ADD size 1 |
| // Data for ADD (length 1) |
| 0x1C, |
| 0x4F, // VCD_COPY mode VCD_NEAR(1) size 15 |
| 0x10, // Address of copy |
| 0x02, // VCD_ADD size 1 |
| // Data for ADD (length 1) |
| 0x2C, |
| 0x53, // VCD_COPY mode VCD_NEAR(2) size 0 |
| 0x87, // Size of copy: upper bits (256 * 4 - 51 = 973) |
| 0x4D, // Size of copy: lower bits |
| 0x10 // Address of copy |
| }; |
| |
| // This is similar to VCDiffInterleavedDecoderTest, but uses the custom code |
| // table to eliminate the need to explicitly encode instruction sizes. |
| // Notice that NEAR(0) mode is used here where NEAR(1) mode was used in |
| // VCDiffInterleavedDecoderTest. This is because the custom code table |
| // has the size of the NEAR cache set to 1; only the most recent |
| // COPY instruction is available. This will also be a test of |
| // custom cache sizes. |
| const char VCDiffCustomCodeTableDecoderTest::kWindowHeader[] = { |
| VCD_SOURCE, // Win_Indicator: take source from dictionary |
| FirstByteOfStringLength(kDictionary), // Source segment size |
| SecondByteOfStringLength(kDictionary), |
| 0x00, // Source segment position: start of dictionary |
| 0x74, // Length of the delta encoding |
| FirstByteOfStringLength(kExpectedTarget), // Size of the target window |
| SecondByteOfStringLength(kExpectedTarget), |
| 0x00, // Delta_indicator (no compression) |
| 0x00, // length of data for ADDs and RUNs (unused) |
| 0x6E, // length of interleaved section |
| 0x00 // length of addresses for COPYs (unused) |
| }; |
| |
| const char VCDiffCustomCodeTableDecoderTest::kWindowBody[] = { |
| 0x22, // VCD_COPY mode VCD_SELF, size 28 |
| 0x00, // Address of COPY: Start of dictionary |
| 0x12, // VCD_ADD size 61 |
| // Data for ADD (length 61) |
| ' ', 'I', ' ', 'h', 'a', 'v', 'e', ' ', 's', 'a', 'i', 'd', ' ', |
| 'i', 't', ' ', 't', 'w', 'i', 'c', 'e', ':', '\n', |
| 'T', 'h', 'a', 't', ' ', |
| 'a', 'l', 'o', 'n', 'e', ' ', 's', 'h', 'o', 'u', 'l', 'd', ' ', |
| 'e', 'n', 'c', 'o', 'u', 'r', 'a', 'g', 'e', ' ', |
| 't', 'h', 'e', ' ', 'c', 'r', 'e', 'w', '.', '\n', |
| 0x32, // VCD_COPY mode VCD_HERE, size 44 |
| 0x58, // HERE mode address (27+61 back from here_address) |
| 0xBF, // VCD_ADD size 2 + VCD_COPY mode NEAR(0), size 5 |
| // Data for ADDs: 2nd section (length 2) |
| 'h', 'r', |
| 0x2D, // NEAR(0) mode address (45 after prior address) |
| 0x0A, // VCD_ADD size 9 |
| // Data for ADDs: 3rd section (length 9) |
| 'W', 'h', 'a', 't', ' ', |
| 'I', ' ', 't', 'e', |
| 0x03, // VCD_RUN size 2 |
| // Data for RUN: 4th section (length 1) |
| 'l', |
| 0x11, // VCD_ADD size 27 |
| // Data for ADD: 4th section (length 27) |
| ' ', 'y', 'o', 'u', ' ', |
| 't', 'h', 'r', 'e', 'e', ' ', 't', 'i', 'm', 'e', 's', ' ', 'i', 's', ' ', |
| 't', 'r', 'u', 'e', '.', '\"', '\n' |
| }; |
| |
| VCDiffCustomCodeTableDecoderTest::VCDiffCustomCodeTableDecoderTest() { |
| delta_file_header_.assign(kFileHeader, sizeof(kFileHeader)); |
| delta_file_header_.push_back(0x01); // NEAR cache size (custom) |
| delta_file_header_.push_back(0x06); // SAME cache size (custom) |
| delta_file_header_.append(kEncodedCustomCodeTable, |
| sizeof(kEncodedCustomCodeTable)); |
| delta_window_header_.assign(kWindowHeader, sizeof(kWindowHeader)); |
| delta_window_body_.assign(kWindowBody, sizeof(kWindowBody)); |
| } |
| |
| TEST_F(VCDiffCustomCodeTableDecoderTest, CustomCodeTableEncodingMatches) { |
| VCDiffCodeTableData custom_code_table( |
| VCDiffCodeTableData::kDefaultCodeTableData); |
| custom_code_table.inst1[3] = VCD_RUN; |
| custom_code_table.size1[17] = 27; |
| custom_code_table.size1[18] = 61; |
| custom_code_table.size1[34] = 28; |
| custom_code_table.size1[50] = 44; |
| |
| decoder_.StartDecoding( |
| reinterpret_cast<const char*>( |
| &VCDiffCodeTableData::kDefaultCodeTableData), |
| sizeof(VCDiffCodeTableData::kDefaultCodeTableData)); |
| EXPECT_TRUE(decoder_.DecodeChunk(kEncodedCustomCodeTable, |
| sizeof(kEncodedCustomCodeTable), |
| &output_)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(sizeof(custom_code_table), output_.size()); |
| const VCDiffCodeTableData* decoded_table = |
| reinterpret_cast<const VCDiffCodeTableData*>(output_.data()); |
| EXPECT_EQ(VCD_RUN, decoded_table->inst1[0]); |
| EXPECT_EQ(VCD_RUN, decoded_table->inst1[3]); |
| EXPECT_EQ(27, decoded_table->size1[17]); |
| EXPECT_EQ(61, decoded_table->size1[18]); |
| EXPECT_EQ(28, decoded_table->size1[34]); |
| EXPECT_EQ(44, decoded_table->size1[50]); |
| for (int i = 0; i < VCDiffCodeTableData::kCodeTableSize; ++i) { |
| EXPECT_EQ(custom_code_table.inst1[i], decoded_table->inst1[i]); |
| EXPECT_EQ(custom_code_table.inst2[i], decoded_table->inst2[i]); |
| EXPECT_EQ(custom_code_table.size1[i], decoded_table->size1[i]); |
| EXPECT_EQ(custom_code_table.size2[i], decoded_table->size2[i]); |
| EXPECT_EQ(custom_code_table.mode1[i], decoded_table->mode1[i]); |
| EXPECT_EQ(custom_code_table.mode2[i], decoded_table->mode2[i]); |
| } |
| } |
| |
| TEST_F(VCDiffCustomCodeTableDecoderTest, DecodeUsingCustomCodeTable) { |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(delta_file_.data(), |
| delta_file_.size(), |
| &output_)); |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| TEST_F(VCDiffCustomCodeTableDecoderTest, IncompleteCustomCodeTable) { |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_TRUE(decoder_.DecodeChunk(delta_file_header_.data(), |
| delta_file_header_.size() - 1, |
| &output_)); |
| EXPECT_FALSE(decoder_.FinishDecoding()); |
| EXPECT_EQ("", output_); |
| } |
| |
| typedef VCDiffCustomCodeTableDecoderTest |
| VCDiffCustomCodeTableDecoderTestByteByByte; |
| |
| TEST_F(VCDiffCustomCodeTableDecoderTestByteByByte, DecodeUsingCustomCodeTable) { |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| for (size_t i = 0; i < delta_file_.size(); ++i) { |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], 1, &output_)); |
| } |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| TEST_F(VCDiffCustomCodeTableDecoderTestByteByByte, IncompleteCustomCodeTable) { |
| delta_file_.resize(delta_file_header_.size() - 1); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| for (size_t i = 0; i < delta_file_.size(); ++i) { |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], 1, &output_)); |
| } |
| EXPECT_FALSE(decoder_.FinishDecoding()); |
| EXPECT_EQ("", output_); |
| } |
| |
| TEST_F(VCDiffCustomCodeTableDecoderTestByteByByte, CustomTableNoVcdTarget) { |
| decoder_.SetAllowVcdTarget(false); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| for (size_t i = 0; i < delta_file_.size(); ++i) { |
| EXPECT_TRUE(decoder_.DecodeChunk(&delta_file_[i], 1, &output_)); |
| } |
| EXPECT_TRUE(decoder_.FinishDecoding()); |
| EXPECT_EQ(expected_target_.c_str(), output_); |
| } |
| |
| #ifdef GTEST_HAS_DEATH_TEST |
| typedef VCDiffCustomCodeTableDecoderTest VCDiffCustomCodeTableDecoderDeathTest; |
| |
| TEST_F(VCDiffCustomCodeTableDecoderDeathTest, BadCustomCacheSizes) { |
| delta_file_header_.assign(kFileHeader, sizeof(kFileHeader)); |
| delta_file_header_.push_back(0x81); // NEAR cache size (top bit) |
| delta_file_header_.push_back(0x10); // NEAR cache size (custom value 0x90) |
| delta_file_header_.push_back(0x81); // SAME cache size (top bit) |
| delta_file_header_.push_back(0x10); // SAME cache size (custom value 0x90) |
| delta_file_header_.append(kEncodedCustomCodeTable, |
| sizeof(kEncodedCustomCodeTable)); |
| InitializeDeltaFile(); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_DEBUG_DEATH(EXPECT_FALSE(decoder_.DecodeChunk(delta_file_.data(), |
| delta_file_.size(), |
| &output_)), |
| "cache"); |
| EXPECT_EQ("", output_); |
| } |
| |
| TEST_F(VCDiffCustomCodeTableDecoderDeathTest, BadCustomCacheSizesNoVcdTarget) { |
| decoder_.SetAllowVcdTarget(false); |
| delta_file_header_.assign(kFileHeader, sizeof(kFileHeader)); |
| delta_file_header_.push_back(0x81); // NEAR cache size (top bit) |
| delta_file_header_.push_back(0x10); // NEAR cache size (custom value 0x90) |
| delta_file_header_.push_back(0x81); // SAME cache size (top bit) |
| delta_file_header_.push_back(0x10); // SAME cache size (custom value 0x90) |
| delta_file_header_.append(kEncodedCustomCodeTable, |
| sizeof(kEncodedCustomCodeTable)); |
| InitializeDeltaFile(); |
| decoder_.StartDecoding(dictionary_.data(), dictionary_.size()); |
| EXPECT_DEBUG_DEATH(EXPECT_FALSE(decoder_.DecodeChunk(delta_file_.data(), |
| delta_file_.size(), |
| &output_)), |
| "cache"); |
| EXPECT_EQ("", output_); |
| } |
| |
| #endif // GTEST_HAS_DEATH_TEST |
| |
| } // namespace open_vcdiff |
| } // unnamed namespace |
