core/fpdfapi/parser/fpdf_parser_decode_unittest.cpp - pdfium - Git at Google

 // Copyright 2015 PDFium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "core/fpdfapi/parser/fpdf_parser_decode.h"

 #include "core/fpdfapi/parser/cpdf_array.h"
 #include "core/fpdfapi/parser/cpdf_dictionary.h"
 #include "core/fpdfapi/parser/cpdf_name.h"
 #include "core/fpdfapi/parser/cpdf_string.h"
 #include "core/fxcrt/fx_memory_wrappers.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "testing/test_support.h"
 #include "third_party/base/stl_util.h"

 TEST(fpdf_parser_decode, ValidateDecoderPipeline) {
   {
     // Empty decoder list is always valid.
     auto decoders = pdfium::MakeRetain<CPDF_Array>();
     EXPECT_TRUE(ValidateDecoderPipeline(decoders.Get()));
   }
   {
     // 1 decoder is almost always valid.
     auto decoders = pdfium::MakeRetain<CPDF_Array>();
     decoders->AppendNew<CPDF_Name>("FlateEncode");
     EXPECT_TRUE(ValidateDecoderPipeline(decoders.Get()));
   }
   {
     // 1 decoder is almost always valid, even with an unknown decoder.
     auto decoders = pdfium::MakeRetain<CPDF_Array>();
     decoders->AppendNew<CPDF_Name>("FooBar");
     EXPECT_TRUE(ValidateDecoderPipeline(decoders.Get()));
   }
   {
     // Valid 2 decoder pipeline.
     auto decoders = pdfium::MakeRetain<CPDF_Array>();
     decoders->AppendNew<CPDF_Name>("AHx");
     decoders->AppendNew<CPDF_Name>("LZWDecode");
     EXPECT_TRUE(ValidateDecoderPipeline(decoders.Get()));
   }
   {
     // Valid 2 decoder pipeline.
     auto decoders = pdfium::MakeRetain<CPDF_Array>();
     decoders->AppendNew<CPDF_Name>("ASCII85Decode");
     decoders->AppendNew<CPDF_Name>("ASCII85Decode");
     EXPECT_TRUE(ValidateDecoderPipeline(decoders.Get()));
   }
   {
     // Valid 5 decoder pipeline.
     auto decoders = pdfium::MakeRetain<CPDF_Array>();
     decoders->AppendNew<CPDF_Name>("ASCII85Decode");
     decoders->AppendNew<CPDF_Name>("A85");
     decoders->AppendNew<CPDF_Name>("RunLengthDecode");
     decoders->AppendNew<CPDF_Name>("FlateDecode");
     decoders->AppendNew<CPDF_Name>("RL");
     EXPECT_TRUE(ValidateDecoderPipeline(decoders.Get()));
   }
   {
     // Valid 5 decoder pipeline, with an image decoder at the end.
     auto decoders = pdfium::MakeRetain<CPDF_Array>();
     decoders->AppendNew<CPDF_Name>("RunLengthDecode");
     decoders->AppendNew<CPDF_Name>("ASCII85Decode");
     decoders->AppendNew<CPDF_Name>("FlateDecode");
     decoders->AppendNew<CPDF_Name>("LZW");
     decoders->AppendNew<CPDF_Name>("DCTDecode");
     EXPECT_TRUE(ValidateDecoderPipeline(decoders.Get()));
   }
   {
     // Invalid 1 decoder pipeline due to wrong type.
     auto decoders = pdfium::MakeRetain<CPDF_Array>();
     decoders->AppendNew<CPDF_String>("FlateEncode", false);
     EXPECT_FALSE(ValidateDecoderPipeline(decoders.Get()));
   }
   {
     // Invalid 2 decoder pipeline, with 2 image decoders.
     auto decoders = pdfium::MakeRetain<CPDF_Array>();
     decoders->AppendNew<CPDF_Name>("DCTDecode");
     decoders->AppendNew<CPDF_Name>("CCITTFaxDecode");
     EXPECT_FALSE(ValidateDecoderPipeline(decoders.Get()));
   }
   {
     // Invalid 2 decoder pipeline, with 1 image decoder at the start.
     auto decoders = pdfium::MakeRetain<CPDF_Array>();
     decoders->AppendNew<CPDF_Name>("DCTDecode");
     decoders->AppendNew<CPDF_Name>("FlateDecode");
     EXPECT_FALSE(ValidateDecoderPipeline(decoders.Get()));
   }
   {
     // Invalid 2 decoder pipeline due to wrong type.
     auto decoders = pdfium::MakeRetain<CPDF_Array>();
     decoders->AppendNew<CPDF_String>("AHx", false);
     decoders->AppendNew<CPDF_Name>("LZWDecode");
     EXPECT_FALSE(ValidateDecoderPipeline(decoders.Get()));
   }
   {
     // Invalid 5 decoder pipeline.
     auto decoders = pdfium::MakeRetain<CPDF_Array>();
     decoders->AppendNew<CPDF_Name>("FlateDecode");
     decoders->AppendNew<CPDF_Name>("FlateDecode");
     decoders->AppendNew<CPDF_Name>("DCTDecode");
     decoders->AppendNew<CPDF_Name>("FlateDecode");
     decoders->AppendNew<CPDF_Name>("FlateDecode");
     EXPECT_FALSE(ValidateDecoderPipeline(decoders.Get()));
   }
   {
     // Invalid 5 decoder pipeline due to wrong type.
     auto decoders = pdfium::MakeRetain<CPDF_Array>();
     decoders->AppendNew<CPDF_Name>("ASCII85Decode");
     decoders->AppendNew<CPDF_Name>("A85");
     decoders->AppendNew<CPDF_Name>("RunLengthDecode");
     decoders->AppendNew<CPDF_Name>("FlateDecode");
     decoders->AppendNew<CPDF_String>("RL", false);
     EXPECT_FALSE(ValidateDecoderPipeline(decoders.Get()));
   }
 }

 // TODO(thestig): Test decoder params.
 TEST(fpdf_parser_decode, GetDecoderArray) {
   {
     // Treat no filter as an empty filter array.
     auto dict = pdfium::MakeRetain<CPDF_Dictionary>();
     Optional<DecoderArray> decoder_array = GetDecoderArray(dict.Get());
     ASSERT_TRUE(decoder_array.has_value());
     EXPECT_TRUE(decoder_array.value().empty());
   }
   {
     // Wrong filter type.
     auto dict = pdfium::MakeRetain<CPDF_Dictionary>();
     dict->SetNewFor<CPDF_String>("Filter", "RL", false);
     Optional<DecoderArray> decoder_array = GetDecoderArray(dict.Get());
     EXPECT_FALSE(decoder_array.has_value());
   }
   {
     // Filter name.
     auto dict = pdfium::MakeRetain<CPDF_Dictionary>();
     dict->SetNewFor<CPDF_Name>("Filter", "RL");
     Optional<DecoderArray> decoder_array = GetDecoderArray(dict.Get());
     ASSERT_TRUE(decoder_array.has_value());
     ASSERT_EQ(1u, decoder_array.value().size());
     EXPECT_EQ("RL", decoder_array.value()[0].first);
   }
   {
     // Empty filter array.
     auto dict = pdfium::MakeRetain<CPDF_Dictionary>();
     dict->SetNewFor<CPDF_Array>("Filter");
     Optional<DecoderArray> decoder_array = GetDecoderArray(dict.Get());
     ASSERT_TRUE(decoder_array.has_value());
     EXPECT_TRUE(decoder_array.value().empty());
   }
   {
     // Valid 1 element filter array.
     auto dict = pdfium::MakeRetain<CPDF_Dictionary>();
     auto* filter_array = dict->SetNewFor<CPDF_Array>("Filter");
     filter_array->AppendNew<CPDF_Name>("FooBar");
     Optional<DecoderArray> decoder_array = GetDecoderArray(dict.Get());
     ASSERT_TRUE(decoder_array.has_value());
     ASSERT_EQ(1u, decoder_array.value().size());
     EXPECT_EQ("FooBar", decoder_array.value()[0].first);
   }
   {
     // Valid 2 element filter array.
     auto dict = pdfium::MakeRetain<CPDF_Dictionary>();
     auto* filter_array = dict->SetNewFor<CPDF_Array>("Filter");
     filter_array->AppendNew<CPDF_Name>("AHx");
     filter_array->AppendNew<CPDF_Name>("LZWDecode");
     Optional<DecoderArray> decoder_array = GetDecoderArray(dict.Get());
     ASSERT_TRUE(decoder_array.has_value());
     ASSERT_EQ(2u, decoder_array.value().size());
     EXPECT_EQ("AHx", decoder_array.value()[0].first);
     EXPECT_EQ("LZWDecode", decoder_array.value()[1].first);
   }
   {
     // Invalid 2 element filter array.
     auto dict = pdfium::MakeRetain<CPDF_Dictionary>();
     auto* invalid_filter_array = dict->SetNewFor<CPDF_Array>("Filter");
     invalid_filter_array->AppendNew<CPDF_Name>("DCTDecode");
     invalid_filter_array->AppendNew<CPDF_Name>("CCITTFaxDecode");
     Optional<DecoderArray> decoder_array = GetDecoderArray(dict.Get());
     EXPECT_FALSE(decoder_array.has_value());
   }
 }

 TEST(fpdf_parser_decode, A85Decode) {
   const pdfium::DecodeTestData kTestData[] = {
       // Empty src string.
       STR_IN_OUT_CASE("", "", 0),
       // Empty content in src string.
       STR_IN_OUT_CASE("~>", "", 0),
       // Regular conversion.
       STR_IN_OUT_CASE("FCfN8~>", "test", 7),
       // End at the ending mark.
       STR_IN_OUT_CASE("FCfN8~>FCfN8", "test", 7),
       // Skip whitespaces.
       STR_IN_OUT_CASE("\t F C\r\n \tf N 8 ~>", "test", 17),
       // No ending mark.
       STR_IN_OUT_CASE("@3B0)DJj_BF*)>@Gp#-s", "a funny story :)", 20),
       // Non-multiple length.
       STR_IN_OUT_CASE("12A", "2k", 3),
       // Stop at unknown characters.
       STR_IN_OUT_CASE("FCfN8FCfN8vw", "testtest", 11),
   };
   for (const auto& test_case : kTestData) {
     std::unique_ptr<uint8_t, FxFreeDeleter> result;
     uint32_t result_size = 0;
     EXPECT_EQ(test_case.processed_size,
               A85Decode({test_case.input, test_case.input_size}, &result,
                         &result_size))
         << "for case " << test_case.input;
     ASSERT_EQ(test_case.expected_size, result_size);
     const uint8_t* result_ptr = result.get();
     for (size_t j = 0; j < result_size; ++j) {
       EXPECT_EQ(test_case.expected[j], result_ptr[j])
           << "for case " << test_case.input << " char " << j;
     }
   }
 }

 // NOTE: python's zlib.compress() and zlib.decompress() may be useful for
 // external validation of the FlateDncode/FlateEecode test cases.
 TEST(FPDFParserDecodeEmbedderTest, FlateDecode) {
   static const pdfium::DecodeTestData flate_decode_cases[] = {
       STR_IN_OUT_CASE("", "", 0),
       STR_IN_OUT_CASE("preposterous nonsense", "", 2),
       STR_IN_OUT_CASE("\x78\x9c\x03\x00\x00\x00\x00\x01", "", 8),
       STR_IN_OUT_CASE("\x78\x9c\x53\x00\x00\x00\x21\x00\x21", " ", 9),
       STR_IN_OUT_CASE("\x78\x9c\x33\x34\x32\x06\x00\01\x2d\x00\x97", "123", 11),
       STR_IN_OUT_CASE("\x78\x9c\x63\xf8\x0f\x00\x01\x01\x01\x00", "\x00\xff",
                       10),
       STR_IN_OUT_CASE(
           "\x78\x9c\x33\x54\x30\x00\x42\x5d\x43\x05\x23\x4b\x05\x73\x33\x63"
           "\x85\xe4\x5c\x2e\x90\x80\xa9\xa9\xa9\x82\xb9\xb1\xa9\x42\x51\x2a"
           "\x57\xb8\x42\x1e\x57\x21\x92\xa0\x89\x9e\xb1\xa5\x09\x92\x84\x9e"
           "\x85\x81\x81\x25\xd8\x14\x24\x26\xd0\x18\x43\x05\x10\x0c\x72\x57"
           "\x80\x30\x8a\xd2\xb9\xf4\xdd\x0d\x14\xd2\x8b\xc1\x46\x99\x59\x1a"
           "\x2b\x58\x1a\x9a\x83\x8c\x49\xe3\x0a\x04\x42\x00\x37\x4c\x1b\x42",
           "1 0 0 -1 29 763 cm\n0 0 555 735 re\nW n\nq\n0 0 555 734.394 re\n"
           "W n\nq\n0.8009 0 0 0.8009 0 0 cm\n1 1 1 RG 1 1 1 rg\n/G0 gs\n"
           "0 0 693 917 re\nf\nQ\nQ\n",
           96),
   };

   for (size_t i = 0; i < pdfium::size(flate_decode_cases); ++i) {
     const pdfium::DecodeTestData& data = flate_decode_cases[i];
     std::unique_ptr<uint8_t, FxFreeDeleter> buf;
     uint32_t buf_size;
     EXPECT_EQ(data.processed_size,
               FlateDecode({data.input, data.input_size}, &buf, &buf_size))
         << " for case " << i;
     ASSERT_TRUE(buf);
     EXPECT_EQ(data.expected_size, buf_size) << " for case " << i;
     if (data.expected_size != buf_size)
       continue;
     EXPECT_EQ(0, memcmp(data.expected, buf.get(), data.expected_size))
         << " for case " << i;
   }
 }

 TEST(fpdf_parser_decode, FlateEncode) {
   static const pdfium::StrFuncTestData flate_encode_cases[] = {
       STR_IN_OUT_CASE("", "\x78\x9c\x03\x00\x00\x00\x00\x01"),
       STR_IN_OUT_CASE(" ", "\x78\x9c\x53\x00\x00\x00\x21\x00\x21"),
       STR_IN_OUT_CASE("123", "\x78\x9c\x33\x34\x32\x06\x00\01\x2d\x00\x97"),
       STR_IN_OUT_CASE("\x00\xff", "\x78\x9c\x63\xf8\x0f\x00\x01\x01\x01\x00"),
       STR_IN_OUT_CASE(
           "1 0 0 -1 29 763 cm\n0 0 555 735 re\nW n\nq\n0 0 555 734.394 re\n"
           "W n\nq\n0.8009 0 0 0.8009 0 0 cm\n1 1 1 RG 1 1 1 rg\n/G0 gs\n"
           "0 0 693 917 re\nf\nQ\nQ\n",
           "\x78\x9c\x33\x54\x30\x00\x42\x5d\x43\x05\x23\x4b\x05\x73\x33\x63"
           "\x85\xe4\x5c\x2e\x90\x80\xa9\xa9\xa9\x82\xb9\xb1\xa9\x42\x51\x2a"
           "\x57\xb8\x42\x1e\x57\x21\x92\xa0\x89\x9e\xb1\xa5\x09\x92\x84\x9e"
           "\x85\x81\x81\x25\xd8\x14\x24\x26\xd0\x18\x43\x05\x10\x0c\x72\x57"
           "\x80\x30\x8a\xd2\xb9\xf4\xdd\x0d\x14\xd2\x8b\xc1\x46\x99\x59\x1a"
           "\x2b\x58\x1a\x9a\x83\x8c\x49\xe3\x0a\x04\x42\x00\x37\x4c\x1b\x42"),
   };

   for (size_t i = 0; i < pdfium::size(flate_encode_cases); ++i) {
     const pdfium::StrFuncTestData& data = flate_encode_cases[i];
     std::unique_ptr<uint8_t, FxFreeDeleter> buf;
     uint32_t buf_size;
     EXPECT_TRUE(FlateEncode({data.input, data.input_size}, &buf, &buf_size));
     ASSERT_TRUE(buf);
     EXPECT_EQ(data.expected_size, buf_size) << " for case " << i;
     if (data.expected_size != buf_size)
       continue;
     EXPECT_EQ(0, memcmp(data.expected, buf.get(), data.expected_size))
         << " for case " << i;
   }
 }

 TEST(fpdf_parser_decode, HexDecode) {
   const pdfium::DecodeTestData kTestData[] = {
       // Empty src string.
       STR_IN_OUT_CASE("", "", 0),
       // Empty content in src string.
       STR_IN_OUT_CASE(">", "", 1),
       // Only whitespaces in src string.
       STR_IN_OUT_CASE("\t   \r\n>", "", 7),
       // Regular conversion.
       STR_IN_OUT_CASE("12Ac>zzz", "\x12\xac", 5),
       // Skip whitespaces.
       STR_IN_OUT_CASE("12 Ac\t02\r\nBF>zzz>", "\x12\xac\x02\xbf", 13),
       // Non-multiple length.
       STR_IN_OUT_CASE("12A>zzz", "\x12\xa0", 4),
       // Skips unknown characters.
       STR_IN_OUT_CASE("12tk  \tAc>zzz", "\x12\xac", 10),
       // No ending mark.
       STR_IN_OUT_CASE("12AcED3c3456", "\x12\xac\xed\x3c\x34\x56", 12),
   };
   for (const auto& test_case : kTestData) {
     std::unique_ptr<uint8_t, FxFreeDeleter> result;
     uint32_t result_size = 0;
     EXPECT_EQ(test_case.processed_size,
               HexDecode({test_case.input, test_case.input_size}, &result,
                         &result_size))
         << "for case " << test_case.input;
     ASSERT_EQ(test_case.expected_size, result_size);
     const uint8_t* result_ptr = result.get();
     for (size_t j = 0; j < result_size; ++j) {
       EXPECT_EQ(test_case.expected[j], result_ptr[j])
           << "for case " << test_case.input << " char " << j;
     }
   }
 }

 TEST(fpdf_parser_decode, DecodeText) {
   const struct DecodeTestData {
     const char* input;
     size_t input_length;
     const wchar_t* expected_output;
     size_t expected_length;
   } kTestData[] = {
       // Empty src string.
       {"", 0, L"", 0},
       // ASCII text.
       {"the quick\tfox", 13, L"the quick\tfox", 13},
       // Unicode text.
       {"\xFE\xFF\x03\x30\x03\x31", 6, L"\x0330\x0331", 2},
       // More Unicode text.
       {"\xFE\xFF\x7F\x51\x98\x75\x00\x20\x56\xFE\x72\x47\x00"
        "\x20\x8D\x44\x8B\xAF\x66\xF4\x59\x1A\x00\x20\x00\xBB",
        26,
        L"\x7F51\x9875\x0020\x56FE\x7247\x0020"
        L"\x8D44\x8BAF\x66F4\x591A\x0020\x00BB",
        12},
       // Unicode escape sequence. https://crbug.com/pdfium/182
       {"\xFE\xFF\x00\x1B\x6A\x61\x00\x1B\x00\x20\x53\x70\x52\x37", 14,
        L"\x0020\x5370\x5237", 3},
       {"\xFE\xFF\x00\x1B\x6A\x61\x00\x1B\x00\x20\x53\x70\x52\x37\x29", 15,
        L"\x0020\x5370\x5237", 3},
       {"\xFE\xFF\x00\x1B\x6A\x61\x4A\x50\x00\x1B\x00\x20\x53\x70\x52\x37", 16,
        L"\x0020\x5370\x5237", 3},
       {"\xFE\xFF\x00\x20\x00\x1B\x6A\x61\x4A\x50\x00\x1B\x52\x37", 14,
        L"\x0020\x5237", 2},
       // https://crbug.com/1001159
       {"\xFE\xFF\x00\x1B\x00\x1B", 6, L"", 0},
       {"\xFE\xFF\x00\x1B\x00\x1B\x20", 7, L"", 0},
       {"\xFE\xFF\x00\x1B\x00\x1B\x00\x20", 8, L"\x0020", 1},
   };

   for (const auto& test_case : kTestData) {
     WideString output = PDF_DecodeText(
         pdfium::make_span(reinterpret_cast<const uint8_t*>(test_case.input),
                           test_case.input_length));
     ASSERT_EQ(test_case.expected_length, output.GetLength())
         << "for case " << test_case.input;
     const wchar_t* str_ptr = output.c_str();
     for (size_t i = 0; i < test_case.expected_length; ++i) {
       EXPECT_EQ(test_case.expected_output[i], str_ptr[i])
           << "for case " << test_case.input << " char " << i;
     }
   }
 }

 TEST(fpdf_parser_decode, EncodeText) {
   const struct EncodeTestData {
     const wchar_t* input;
     const char* expected_output;
     size_t expected_length;
   } kTestData[] = {
       // Empty src string.
       {L"", "", 0},
       // ASCII text.
       {L"the quick\tfox", "the quick\tfox", 13},
       // Unicode text.
       {L"\x0330\x0331", "\xFE\xFF\x03\x30\x03\x31", 6},
       // More Unicode text.
       {L"\x7F51\x9875\x0020\x56FE\x7247\x0020"
        L"\x8D44\x8BAF\x66F4\x591A\x0020\x00BB",
        "\xFE\xFF\x7F\x51\x98\x75\x00\x20\x56\xFE\x72\x47\x00"
        "\x20\x8D\x44\x8B\xAF\x66\xF4\x59\x1A\x00\x20\x00\xBB",
        26},
   };

   for (const auto& test_case : kTestData) {
     ByteString output = PDF_EncodeText(test_case.input);
     ASSERT_EQ(test_case.expected_length, output.GetLength())
         << "for case " << test_case.input;
     const char* str_ptr = output.c_str();
     for (size_t j = 0; j < test_case.expected_length; ++j) {
       EXPECT_EQ(test_case.expected_output[j], str_ptr[j])
           << "for case " << test_case.input << " char " << j;
     }
   }
 }
	// Copyright 2015 PDFium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "core/fpdfapi/parser/fpdf_parser_decode.h"

	#include "core/fpdfapi/parser/cpdf_array.h"
	#include "core/fpdfapi/parser/cpdf_dictionary.h"
	#include "core/fpdfapi/parser/cpdf_name.h"
	#include "core/fpdfapi/parser/cpdf_string.h"
	#include "core/fxcrt/fx_memory_wrappers.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "testing/test_support.h"
	#include "third_party/base/stl_util.h"

	TEST(fpdf_parser_decode, ValidateDecoderPipeline) {
	{
	// Empty decoder list is always valid.
	auto decoders = pdfium::MakeRetain<CPDF_Array>();
	EXPECT_TRUE(ValidateDecoderPipeline(decoders.Get()));
	}
	{
	// 1 decoder is almost always valid.
	auto decoders = pdfium::MakeRetain<CPDF_Array>();
	decoders->AppendNew<CPDF_Name>("FlateEncode");
	EXPECT_TRUE(ValidateDecoderPipeline(decoders.Get()));
	}
	{
	// 1 decoder is almost always valid, even with an unknown decoder.
	auto decoders = pdfium::MakeRetain<CPDF_Array>();
	decoders->AppendNew<CPDF_Name>("FooBar");
	EXPECT_TRUE(ValidateDecoderPipeline(decoders.Get()));
	}
	{
	// Valid 2 decoder pipeline.
	auto decoders = pdfium::MakeRetain<CPDF_Array>();
	decoders->AppendNew<CPDF_Name>("AHx");
	decoders->AppendNew<CPDF_Name>("LZWDecode");
	EXPECT_TRUE(ValidateDecoderPipeline(decoders.Get()));
	}
	{
	// Valid 2 decoder pipeline.
	auto decoders = pdfium::MakeRetain<CPDF_Array>();
	decoders->AppendNew<CPDF_Name>("ASCII85Decode");
	decoders->AppendNew<CPDF_Name>("ASCII85Decode");
	EXPECT_TRUE(ValidateDecoderPipeline(decoders.Get()));
	}
	{
	// Valid 5 decoder pipeline.
	auto decoders = pdfium::MakeRetain<CPDF_Array>();
	decoders->AppendNew<CPDF_Name>("ASCII85Decode");
	decoders->AppendNew<CPDF_Name>("A85");
	decoders->AppendNew<CPDF_Name>("RunLengthDecode");
	decoders->AppendNew<CPDF_Name>("FlateDecode");
	decoders->AppendNew<CPDF_Name>("RL");
	EXPECT_TRUE(ValidateDecoderPipeline(decoders.Get()));
	}
	{
	// Valid 5 decoder pipeline, with an image decoder at the end.
	auto decoders = pdfium::MakeRetain<CPDF_Array>();
	decoders->AppendNew<CPDF_Name>("RunLengthDecode");
	decoders->AppendNew<CPDF_Name>("ASCII85Decode");
	decoders->AppendNew<CPDF_Name>("FlateDecode");
	decoders->AppendNew<CPDF_Name>("LZW");
	decoders->AppendNew<CPDF_Name>("DCTDecode");
	EXPECT_TRUE(ValidateDecoderPipeline(decoders.Get()));
	}
	{
	// Invalid 1 decoder pipeline due to wrong type.
	auto decoders = pdfium::MakeRetain<CPDF_Array>();
	decoders->AppendNew<CPDF_String>("FlateEncode", false);
	EXPECT_FALSE(ValidateDecoderPipeline(decoders.Get()));
	}
	{
	// Invalid 2 decoder pipeline, with 2 image decoders.
	auto decoders = pdfium::MakeRetain<CPDF_Array>();
	decoders->AppendNew<CPDF_Name>("DCTDecode");
	decoders->AppendNew<CPDF_Name>("CCITTFaxDecode");
	EXPECT_FALSE(ValidateDecoderPipeline(decoders.Get()));
	}
	{
	// Invalid 2 decoder pipeline, with 1 image decoder at the start.
	auto decoders = pdfium::MakeRetain<CPDF_Array>();
	decoders->AppendNew<CPDF_Name>("DCTDecode");
	decoders->AppendNew<CPDF_Name>("FlateDecode");
	EXPECT_FALSE(ValidateDecoderPipeline(decoders.Get()));
	}
	{
	// Invalid 2 decoder pipeline due to wrong type.
	auto decoders = pdfium::MakeRetain<CPDF_Array>();
	decoders->AppendNew<CPDF_String>("AHx", false);
	decoders->AppendNew<CPDF_Name>("LZWDecode");
	EXPECT_FALSE(ValidateDecoderPipeline(decoders.Get()));
	}
	{
	// Invalid 5 decoder pipeline.
	auto decoders = pdfium::MakeRetain<CPDF_Array>();
	decoders->AppendNew<CPDF_Name>("FlateDecode");
	decoders->AppendNew<CPDF_Name>("FlateDecode");
	decoders->AppendNew<CPDF_Name>("DCTDecode");
	decoders->AppendNew<CPDF_Name>("FlateDecode");
	decoders->AppendNew<CPDF_Name>("FlateDecode");
	EXPECT_FALSE(ValidateDecoderPipeline(decoders.Get()));
	}
	{
	// Invalid 5 decoder pipeline due to wrong type.
	auto decoders = pdfium::MakeRetain<CPDF_Array>();
	decoders->AppendNew<CPDF_Name>("ASCII85Decode");
	decoders->AppendNew<CPDF_Name>("A85");
	decoders->AppendNew<CPDF_Name>("RunLengthDecode");
	decoders->AppendNew<CPDF_Name>("FlateDecode");
	decoders->AppendNew<CPDF_String>("RL", false);
	EXPECT_FALSE(ValidateDecoderPipeline(decoders.Get()));
	}
	}

	// TODO(thestig): Test decoder params.
	TEST(fpdf_parser_decode, GetDecoderArray) {
	{
	// Treat no filter as an empty filter array.
	auto dict = pdfium::MakeRetain<CPDF_Dictionary>();
	Optional<DecoderArray> decoder_array = GetDecoderArray(dict.Get());
	ASSERT_TRUE(decoder_array.has_value());
	EXPECT_TRUE(decoder_array.value().empty());
	}
	{
	// Wrong filter type.
	auto dict = pdfium::MakeRetain<CPDF_Dictionary>();
	dict->SetNewFor<CPDF_String>("Filter", "RL", false);
	Optional<DecoderArray> decoder_array = GetDecoderArray(dict.Get());
	EXPECT_FALSE(decoder_array.has_value());
	}
	{
	// Filter name.
	auto dict = pdfium::MakeRetain<CPDF_Dictionary>();
	dict->SetNewFor<CPDF_Name>("Filter", "RL");
	Optional<DecoderArray> decoder_array = GetDecoderArray(dict.Get());
	ASSERT_TRUE(decoder_array.has_value());
	ASSERT_EQ(1u, decoder_array.value().size());
	EXPECT_EQ("RL", decoder_array.value()[0].first);
	}
	{
	// Empty filter array.
	auto dict = pdfium::MakeRetain<CPDF_Dictionary>();
	dict->SetNewFor<CPDF_Array>("Filter");
	Optional<DecoderArray> decoder_array = GetDecoderArray(dict.Get());
	ASSERT_TRUE(decoder_array.has_value());
	EXPECT_TRUE(decoder_array.value().empty());
	}
	{
	// Valid 1 element filter array.
	auto dict = pdfium::MakeRetain<CPDF_Dictionary>();
	auto* filter_array = dict->SetNewFor<CPDF_Array>("Filter");
	filter_array->AppendNew<CPDF_Name>("FooBar");
	Optional<DecoderArray> decoder_array = GetDecoderArray(dict.Get());
	ASSERT_TRUE(decoder_array.has_value());
	ASSERT_EQ(1u, decoder_array.value().size());
	EXPECT_EQ("FooBar", decoder_array.value()[0].first);
	}
	{
	// Valid 2 element filter array.
	auto dict = pdfium::MakeRetain<CPDF_Dictionary>();
	auto* filter_array = dict->SetNewFor<CPDF_Array>("Filter");
	filter_array->AppendNew<CPDF_Name>("AHx");
	filter_array->AppendNew<CPDF_Name>("LZWDecode");
	Optional<DecoderArray> decoder_array = GetDecoderArray(dict.Get());
	ASSERT_TRUE(decoder_array.has_value());
	ASSERT_EQ(2u, decoder_array.value().size());
	EXPECT_EQ("AHx", decoder_array.value()[0].first);
	EXPECT_EQ("LZWDecode", decoder_array.value()[1].first);
	}
	{
	// Invalid 2 element filter array.
	auto dict = pdfium::MakeRetain<CPDF_Dictionary>();
	auto* invalid_filter_array = dict->SetNewFor<CPDF_Array>("Filter");
	invalid_filter_array->AppendNew<CPDF_Name>("DCTDecode");
	invalid_filter_array->AppendNew<CPDF_Name>("CCITTFaxDecode");
	Optional<DecoderArray> decoder_array = GetDecoderArray(dict.Get());
	EXPECT_FALSE(decoder_array.has_value());
	}
	}

	TEST(fpdf_parser_decode, A85Decode) {
	const pdfium::DecodeTestData kTestData[] = {
	// Empty src string.
	STR_IN_OUT_CASE("", "", 0),
	// Empty content in src string.
	STR_IN_OUT_CASE("~>", "", 0),
	// Regular conversion.
	STR_IN_OUT_CASE("FCfN8~>", "test", 7),
	// End at the ending mark.
	STR_IN_OUT_CASE("FCfN8~>FCfN8", "test", 7),
	// Skip whitespaces.
	STR_IN_OUT_CASE("\t F C\r\n \tf N 8 ~>", "test", 17),
	// No ending mark.
	STR_IN_OUT_CASE("@3B0)DJj_BF*)>@Gp#-s", "a funny story :)", 20),
	// Non-multiple length.
	STR_IN_OUT_CASE("12A", "2k", 3),
	// Stop at unknown characters.
	STR_IN_OUT_CASE("FCfN8FCfN8vw", "testtest", 11),
	};
	for (const auto& test_case : kTestData) {
	std::unique_ptr<uint8_t, FxFreeDeleter> result;
	uint32_t result_size = 0;
	EXPECT_EQ(test_case.processed_size,
	A85Decode({test_case.input, test_case.input_size}, &result,
	&result_size))
	<< "for case " << test_case.input;
	ASSERT_EQ(test_case.expected_size, result_size);
	const uint8_t* result_ptr = result.get();
	for (size_t j = 0; j < result_size; ++j) {
	EXPECT_EQ(test_case.expected[j], result_ptr[j])
	<< "for case " << test_case.input << " char " << j;
	}
	}
	}

	// NOTE: python's zlib.compress() and zlib.decompress() may be useful for
	// external validation of the FlateDncode/FlateEecode test cases.
	TEST(FPDFParserDecodeEmbedderTest, FlateDecode) {
	static const pdfium::DecodeTestData flate_decode_cases[] = {
	STR_IN_OUT_CASE("", "", 0),
	STR_IN_OUT_CASE("preposterous nonsense", "", 2),
	STR_IN_OUT_CASE("\x78\x9c\x03\x00\x00\x00\x00\x01", "", 8),
	STR_IN_OUT_CASE("\x78\x9c\x53\x00\x00\x00\x21\x00\x21", " ", 9),
	STR_IN_OUT_CASE("\x78\x9c\x33\x34\x32\x06\x00\01\x2d\x00\x97", "123", 11),
	STR_IN_OUT_CASE("\x78\x9c\x63\xf8\x0f\x00\x01\x01\x01\x00", "\x00\xff",
	10),
	STR_IN_OUT_CASE(
	"\x78\x9c\x33\x54\x30\x00\x42\x5d\x43\x05\x23\x4b\x05\x73\x33\x63"
	"\x85\xe4\x5c\x2e\x90\x80\xa9\xa9\xa9\x82\xb9\xb1\xa9\x42\x51\x2a"
	"\x57\xb8\x42\x1e\x57\x21\x92\xa0\x89\x9e\xb1\xa5\x09\x92\x84\x9e"
	"\x85\x81\x81\x25\xd8\x14\x24\x26\xd0\x18\x43\x05\x10\x0c\x72\x57"
	"\x80\x30\x8a\xd2\xb9\xf4\xdd\x0d\x14\xd2\x8b\xc1\x46\x99\x59\x1a"
	"\x2b\x58\x1a\x9a\x83\x8c\x49\xe3\x0a\x04\x42\x00\x37\x4c\x1b\x42",
	"1 0 0 -1 29 763 cm\n0 0 555 735 re\nW n\nq\n0 0 555 734.394 re\n"
	"W n\nq\n0.8009 0 0 0.8009 0 0 cm\n1 1 1 RG 1 1 1 rg\n/G0 gs\n"
	"0 0 693 917 re\nf\nQ\nQ\n",
	96),
	};

	for (size_t i = 0; i < pdfium::size(flate_decode_cases); ++i) {
	const pdfium::DecodeTestData& data = flate_decode_cases[i];
	std::unique_ptr<uint8_t, FxFreeDeleter> buf;
	uint32_t buf_size;
	EXPECT_EQ(data.processed_size,
	FlateDecode({data.input, data.input_size}, &buf, &buf_size))
	<< " for case " << i;
	ASSERT_TRUE(buf);
	EXPECT_EQ(data.expected_size, buf_size) << " for case " << i;
	if (data.expected_size != buf_size)
	continue;
	EXPECT_EQ(0, memcmp(data.expected, buf.get(), data.expected_size))
	<< " for case " << i;
	}
	}

	TEST(fpdf_parser_decode, FlateEncode) {
	static const pdfium::StrFuncTestData flate_encode_cases[] = {
	STR_IN_OUT_CASE("", "\x78\x9c\x03\x00\x00\x00\x00\x01"),
	STR_IN_OUT_CASE(" ", "\x78\x9c\x53\x00\x00\x00\x21\x00\x21"),
	STR_IN_OUT_CASE("123", "\x78\x9c\x33\x34\x32\x06\x00\01\x2d\x00\x97"),
	STR_IN_OUT_CASE("\x00\xff", "\x78\x9c\x63\xf8\x0f\x00\x01\x01\x01\x00"),
	STR_IN_OUT_CASE(
	"1 0 0 -1 29 763 cm\n0 0 555 735 re\nW n\nq\n0 0 555 734.394 re\n"
	"W n\nq\n0.8009 0 0 0.8009 0 0 cm\n1 1 1 RG 1 1 1 rg\n/G0 gs\n"
	"0 0 693 917 re\nf\nQ\nQ\n",
	"\x78\x9c\x33\x54\x30\x00\x42\x5d\x43\x05\x23\x4b\x05\x73\x33\x63"
	"\x85\xe4\x5c\x2e\x90\x80\xa9\xa9\xa9\x82\xb9\xb1\xa9\x42\x51\x2a"
	"\x57\xb8\x42\x1e\x57\x21\x92\xa0\x89\x9e\xb1\xa5\x09\x92\x84\x9e"
	"\x85\x81\x81\x25\xd8\x14\x24\x26\xd0\x18\x43\x05\x10\x0c\x72\x57"
	"\x80\x30\x8a\xd2\xb9\xf4\xdd\x0d\x14\xd2\x8b\xc1\x46\x99\x59\x1a"
	"\x2b\x58\x1a\x9a\x83\x8c\x49\xe3\x0a\x04\x42\x00\x37\x4c\x1b\x42"),
	};

	for (size_t i = 0; i < pdfium::size(flate_encode_cases); ++i) {
	const pdfium::StrFuncTestData& data = flate_encode_cases[i];
	std::unique_ptr<uint8_t, FxFreeDeleter> buf;
	uint32_t buf_size;
	EXPECT_TRUE(FlateEncode({data.input, data.input_size}, &buf, &buf_size));
	ASSERT_TRUE(buf);
	EXPECT_EQ(data.expected_size, buf_size) << " for case " << i;
	if (data.expected_size != buf_size)
	continue;
	EXPECT_EQ(0, memcmp(data.expected, buf.get(), data.expected_size))
	<< " for case " << i;
	}
	}

	TEST(fpdf_parser_decode, HexDecode) {
	const pdfium::DecodeTestData kTestData[] = {
	// Empty src string.
	STR_IN_OUT_CASE("", "", 0),
	// Empty content in src string.
	STR_IN_OUT_CASE(">", "", 1),
	// Only whitespaces in src string.
	STR_IN_OUT_CASE("\t \r\n>", "", 7),
	// Regular conversion.
	STR_IN_OUT_CASE("12Ac>zzz", "\x12\xac", 5),
	// Skip whitespaces.
	STR_IN_OUT_CASE("12 Ac\t02\r\nBF>zzz>", "\x12\xac\x02\xbf", 13),
	// Non-multiple length.
	STR_IN_OUT_CASE("12A>zzz", "\x12\xa0", 4),
	// Skips unknown characters.
	STR_IN_OUT_CASE("12tk \tAc>zzz", "\x12\xac", 10),
	// No ending mark.
	STR_IN_OUT_CASE("12AcED3c3456", "\x12\xac\xed\x3c\x34\x56", 12),
	};
	for (const auto& test_case : kTestData) {
	std::unique_ptr<uint8_t, FxFreeDeleter> result;
	uint32_t result_size = 0;
	EXPECT_EQ(test_case.processed_size,
	HexDecode({test_case.input, test_case.input_size}, &result,
	&result_size))
	<< "for case " << test_case.input;
	ASSERT_EQ(test_case.expected_size, result_size);
	const uint8_t* result_ptr = result.get();
	for (size_t j = 0; j < result_size; ++j) {
	EXPECT_EQ(test_case.expected[j], result_ptr[j])
	<< "for case " << test_case.input << " char " << j;
	}
	}
	}

	TEST(fpdf_parser_decode, DecodeText) {
	const struct DecodeTestData {
	const char* input;
	size_t input_length;
	const wchar_t* expected_output;
	size_t expected_length;
	} kTestData[] = {
	// Empty src string.
	{"", 0, L"", 0},
	// ASCII text.
	{"the quick\tfox", 13, L"the quick\tfox", 13},
	// Unicode text.
	{"\xFE\xFF\x03\x30\x03\x31", 6, L"\x0330\x0331", 2},
	// More Unicode text.
	{"\xFE\xFF\x7F\x51\x98\x75\x00\x20\x56\xFE\x72\x47\x00"
	"\x20\x8D\x44\x8B\xAF\x66\xF4\x59\x1A\x00\x20\x00\xBB",
	26,
	L"\x7F51\x9875\x0020\x56FE\x7247\x0020"
	L"\x8D44\x8BAF\x66F4\x591A\x0020\x00BB",
	12},
	// Unicode escape sequence. https://crbug.com/pdfium/182
	{"\xFE\xFF\x00\x1B\x6A\x61\x00\x1B\x00\x20\x53\x70\x52\x37", 14,
	L"\x0020\x5370\x5237", 3},
	{"\xFE\xFF\x00\x1B\x6A\x61\x00\x1B\x00\x20\x53\x70\x52\x37\x29", 15,
	L"\x0020\x5370\x5237", 3},
	{"\xFE\xFF\x00\x1B\x6A\x61\x4A\x50\x00\x1B\x00\x20\x53\x70\x52\x37", 16,
	L"\x0020\x5370\x5237", 3},
	{"\xFE\xFF\x00\x20\x00\x1B\x6A\x61\x4A\x50\x00\x1B\x52\x37", 14,
	L"\x0020\x5237", 2},
	// https://crbug.com/1001159
	{"\xFE\xFF\x00\x1B\x00\x1B", 6, L"", 0},
	{"\xFE\xFF\x00\x1B\x00\x1B\x20", 7, L"", 0},
	{"\xFE\xFF\x00\x1B\x00\x1B\x00\x20", 8, L"\x0020", 1},
	};

	for (const auto& test_case : kTestData) {
	WideString output = PDF_DecodeText(
	pdfium::make_span(reinterpret_cast<const uint8_t*>(test_case.input),
	test_case.input_length));
	ASSERT_EQ(test_case.expected_length, output.GetLength())
	<< "for case " << test_case.input;
	const wchar_t* str_ptr = output.c_str();
	for (size_t i = 0; i < test_case.expected_length; ++i) {
	EXPECT_EQ(test_case.expected_output[i], str_ptr[i])
	<< "for case " << test_case.input << " char " << i;
	}
	}
	}

	TEST(fpdf_parser_decode, EncodeText) {
	const struct EncodeTestData {
	const wchar_t* input;
	const char* expected_output;
	size_t expected_length;
	} kTestData[] = {
	// Empty src string.
	{L"", "", 0},
	// ASCII text.
	{L"the quick\tfox", "the quick\tfox", 13},
	// Unicode text.
	{L"\x0330\x0331", "\xFE\xFF\x03\x30\x03\x31", 6},
	// More Unicode text.
	{L"\x7F51\x9875\x0020\x56FE\x7247\x0020"
	L"\x8D44\x8BAF\x66F4\x591A\x0020\x00BB",
	"\xFE\xFF\x7F\x51\x98\x75\x00\x20\x56\xFE\x72\x47\x00"
	"\x20\x8D\x44\x8B\xAF\x66\xF4\x59\x1A\x00\x20\x00\xBB",
	26},
	};

	for (const auto& test_case : kTestData) {
	ByteString output = PDF_EncodeText(test_case.input);
	ASSERT_EQ(test_case.expected_length, output.GetLength())
	<< "for case " << test_case.input;
	const char* str_ptr = output.c_str();
	for (size_t j = 0; j < test_case.expected_length; ++j) {
	EXPECT_EQ(test_case.expected_output[j], str_ptr[j])
	<< "for case " << test_case.input << " char " << j;
	}
	}
	}