fpdfsdk/fpdf_dataavail_embeddertest.cpp - pdfium.git - 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 <algorithm>
 #include <memory>
 #include <set>
 #include <string>
 #include <utility>
 #include <vector>

 #include "public/fpdfview.h"
 #include "testing/embedder_test.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "testing/test_support.h"
 #include "testing/utils/path_service.h"

 namespace {
 class TestAsyncLoader : public FX_DOWNLOADHINTS, FX_FILEAVAIL {
  public:
   explicit TestAsyncLoader(const std::string& file_name) {
     std::string file_path;
     if (!PathService::GetTestFilePath(file_name, &file_path))
       return;
     file_contents_ = GetFileContents(file_path.c_str(), &file_length_);
     if (!file_contents_)
       return;

     file_access_.m_FileLen = static_cast<unsigned long>(file_length_);
     file_access_.m_GetBlock = SGetBlock;
     file_access_.m_Param = this;

     FX_DOWNLOADHINTS::version = 1;
     FX_DOWNLOADHINTS::AddSegment = SAddSegment;

     FX_FILEAVAIL::version = 1;
     FX_FILEAVAIL::IsDataAvail = SIsDataAvail;
   }

   bool IsOpened() const { return !!file_contents_; }

   FPDF_FILEACCESS* file_access() { return &file_access_; }
   FX_DOWNLOADHINTS* hints() { return this; }
   FX_FILEAVAIL* file_avail() { return this; }

   const std::vector<std::pair<size_t, size_t>>& requested_segments() const {
     return requested_segments_;
   }

   size_t max_requested_bound() const { return max_requested_bound_; }

   void ClearRequestedSegments() {
     requested_segments_.clear();
     max_requested_bound_ = 0;
   }

   bool is_new_data_available() const { return is_new_data_available_; }
   void set_is_new_data_available(bool is_new_data_available) {
     is_new_data_available_ = is_new_data_available;
   }

   size_t max_already_available_bound() const {
     return available_ranges_.empty() ? 0 : available_ranges_.rbegin()->second;
   }

  private:
   void SetDataAvailable(size_t start, size_t size) {
     if (size == 0)
       return;
     const auto range = std::make_pair(start, start + size);
     if (available_ranges_.empty()) {
       available_ranges_.insert(range);
       return;
     }
     auto start_it = available_ranges_.upper_bound(range);
     if (start_it != available_ranges_.begin())
       --start_it;  // start now points to the key equal or lower than offset.
     if (start_it->second < range.first)
       ++start_it;  // start element is entirely before current range, skip it.

     auto end_it = available_ranges_.upper_bound(
         std::make_pair(range.second, range.second));
     if (start_it == end_it) {  // No ranges to merge.
       available_ranges_.insert(range);
       return;
     }

     --end_it;

     size_t new_start = std::min<size_t>(start_it->first, range.first);
     size_t new_end = std::max(end_it->second, range.second);

     available_ranges_.erase(start_it, ++end_it);
     available_ranges_.insert(std::make_pair(new_start, new_end));
   }

   bool CheckDataAlreadyAvailable(size_t start, size_t size) const {
     if (size == 0)
       return false;
     const auto range = std::make_pair(start, start + size);
     auto it = available_ranges_.upper_bound(range);
     if (it == available_ranges_.begin())
       return false;  // No ranges includes range.start().

     --it;  // Now it starts equal or before range.start().
     return it->second >= range.second;
   }

   int GetBlockImpl(unsigned long pos, unsigned char* pBuf, unsigned long size) {
     if (!IsDataAvailImpl(pos, size))
       return 0;
     const unsigned long end =
         std::min(static_cast<unsigned long>(file_length_), pos + size);
     if (end <= pos)
       return 0;
     memcpy(pBuf, file_contents_.get() + pos, end - pos);
     SetDataAvailable(pos, end - pos);
     return static_cast<int>(end - pos);
   }

   void AddSegmentImpl(size_t offset, size_t size) {
     requested_segments_.push_back(std::make_pair(offset, size));
     max_requested_bound_ = std::max(max_requested_bound_, offset + size);
   }

   bool IsDataAvailImpl(size_t offset, size_t size) {
     if (offset + size > file_length_)
       return false;
     if (is_new_data_available_) {
       SetDataAvailable(offset, size);
       return true;
     }
     return CheckDataAlreadyAvailable(offset, size);
   }

   static int SGetBlock(void* param,
                        unsigned long pos,
                        unsigned char* pBuf,
                        unsigned long size) {
     return static_cast<TestAsyncLoader*>(param)->GetBlockImpl(pos, pBuf, size);
   }

   static void SAddSegment(FX_DOWNLOADHINTS* pThis, size_t offset, size_t size) {
     return static_cast<TestAsyncLoader*>(pThis)->AddSegmentImpl(offset, size);
   }

   static FPDF_BOOL SIsDataAvail(FX_FILEAVAIL* pThis,
                                 size_t offset,
                                 size_t size) {
     return static_cast<TestAsyncLoader*>(pThis)->IsDataAvailImpl(offset, size);
   }

   FPDF_FILEACCESS file_access_;

   std::unique_ptr<char, pdfium::FreeDeleter> file_contents_;
   size_t file_length_;
   std::vector<std::pair<size_t, size_t>> requested_segments_;
   size_t max_requested_bound_ = 0;
   bool is_new_data_available_ = true;

   using Range = std::pair<size_t, size_t>;
   struct range_compare {
     bool operator()(const Range& lval, const Range& rval) const {
       return lval.first < rval.first;
     }
   };
   using RangesContainer = std::set<Range, range_compare>;
   RangesContainer available_ranges_;
 };

 }  // namespace

 class FPDFDataAvailEmbeddertest : public EmbedderTest {};

 TEST_F(FPDFDataAvailEmbeddertest, TrailerUnterminated) {
   // Document must load without crashing but is too malformed to be available.
   EXPECT_FALSE(OpenDocument("trailer_unterminated.pdf"));
   EXPECT_FALSE(FPDFAvail_IsDocAvail(avail_, &hints_));
 }

 TEST_F(FPDFDataAvailEmbeddertest, TrailerAsHexstring) {
   // Document must load without crashing but is too malformed to be available.
   EXPECT_FALSE(OpenDocument("trailer_as_hexstring.pdf"));
   EXPECT_FALSE(FPDFAvail_IsDocAvail(avail_, &hints_));
 }

 TEST_F(FPDFDataAvailEmbeddertest, LoadUsingHintTables) {
   TestAsyncLoader loader("feature_linearized_loading.pdf");
   avail_ = FPDFAvail_Create(loader.file_avail(), loader.file_access());
   ASSERT_EQ(PDF_DATA_AVAIL, FPDFAvail_IsDocAvail(avail_, loader.hints()));
   document_ = FPDFAvail_GetDocument(avail_, nullptr);
   ASSERT_TRUE(document_);
   ASSERT_EQ(PDF_DATA_AVAIL, FPDFAvail_IsPageAvail(avail_, 1, loader.hints()));

   // No new data available, to prevent load "Pages" node.
   loader.set_is_new_data_available(false);
   FPDF_PAGE page = LoadPage(1);
   EXPECT_TRUE(page);
   UnloadPage(page);
 }

 TEST_F(FPDFDataAvailEmbeddertest,
        DoNotLoadMainCrossRefForFirstPageIfLinearized) {
   TestAsyncLoader loader("feature_linearized_loading.pdf");
   avail_ = FPDFAvail_Create(loader.file_avail(), loader.file_access());
   ASSERT_EQ(PDF_DATA_AVAIL, FPDFAvail_IsDocAvail(avail_, loader.hints()));
   document_ = FPDFAvail_GetDocument(avail_, nullptr);
   ASSERT_TRUE(document_);
   const int first_page_num = FPDFAvail_GetFirstPageNum(document_);

   // The main cross ref table should not be processed.
   // (It is always at file end)
   EXPECT_GT(loader.file_access()->m_FileLen,
             loader.max_already_available_bound());

   // Prevent access to non requested data to coerce the parser to send new
   // request for non available (non requested before) data.
   loader.set_is_new_data_available(false);
   FPDFAvail_IsPageAvail(avail_, first_page_num, loader.hints());

   // The main cross ref table should not be requested.
   // (It is always at file end)
   EXPECT_GT(loader.file_access()->m_FileLen, loader.max_requested_bound());

   // Allow parse page.
   loader.set_is_new_data_available(true);
   ASSERT_EQ(PDF_DATA_AVAIL,
             FPDFAvail_IsPageAvail(avail_, first_page_num, loader.hints()));

   // The main cross ref table should not be processed.
   // (It is always at file end)
   EXPECT_GT(loader.file_access()->m_FileLen,
             loader.max_already_available_bound());

   // Prevent loading data, while page loading.
   loader.set_is_new_data_available(false);
   FPDF_PAGE page = LoadPage(first_page_num);
   EXPECT_TRUE(page);
   UnloadPage(page);
 }
	// 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 <algorithm>
	#include <memory>
	#include <set>
	#include <string>
	#include <utility>
	#include <vector>

	#include "public/fpdfview.h"
	#include "testing/embedder_test.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "testing/test_support.h"
	#include "testing/utils/path_service.h"

	namespace {
	class TestAsyncLoader : public FX_DOWNLOADHINTS, FX_FILEAVAIL {
	public:
	explicit TestAsyncLoader(const std::string& file_name) {
	std::string file_path;
	if (!PathService::GetTestFilePath(file_name, &file_path))
	return;
	file_contents_ = GetFileContents(file_path.c_str(), &file_length_);
	if (!file_contents_)
	return;

	file_access_.m_FileLen = static_cast<unsigned long>(file_length_);
	file_access_.m_GetBlock = SGetBlock;
	file_access_.m_Param = this;

	FX_DOWNLOADHINTS::version = 1;
	FX_DOWNLOADHINTS::AddSegment = SAddSegment;

	FX_FILEAVAIL::version = 1;
	FX_FILEAVAIL::IsDataAvail = SIsDataAvail;
	}

	bool IsOpened() const { return !!file_contents_; }

	FPDF_FILEACCESS* file_access() { return &file_access_; }
	FX_DOWNLOADHINTS* hints() { return this; }
	FX_FILEAVAIL* file_avail() { return this; }

	const std::vector<std::pair<size_t, size_t>>& requested_segments() const {
	return requested_segments_;
	}

	size_t max_requested_bound() const { return max_requested_bound_; }

	void ClearRequestedSegments() {
	requested_segments_.clear();
	max_requested_bound_ = 0;
	}

	bool is_new_data_available() const { return is_new_data_available_; }
	void set_is_new_data_available(bool is_new_data_available) {
	is_new_data_available_ = is_new_data_available;
	}

	size_t max_already_available_bound() const {
	return available_ranges_.empty() ? 0 : available_ranges_.rbegin()->second;
	}

	private:
	void SetDataAvailable(size_t start, size_t size) {
	if (size == 0)
	return;
	const auto range = std::make_pair(start, start + size);
	if (available_ranges_.empty()) {
	available_ranges_.insert(range);
	return;
	}
	auto start_it = available_ranges_.upper_bound(range);
	if (start_it != available_ranges_.begin())
	--start_it; // start now points to the key equal or lower than offset.
	if (start_it->second < range.first)
	++start_it; // start element is entirely before current range, skip it.

	auto end_it = available_ranges_.upper_bound(
	std::make_pair(range.second, range.second));
	if (start_it == end_it) { // No ranges to merge.
	available_ranges_.insert(range);
	return;
	}

	--end_it;

	size_t new_start = std::min<size_t>(start_it->first, range.first);
	size_t new_end = std::max(end_it->second, range.second);

	available_ranges_.erase(start_it, ++end_it);
	available_ranges_.insert(std::make_pair(new_start, new_end));
	}

	bool CheckDataAlreadyAvailable(size_t start, size_t size) const {
	if (size == 0)
	return false;
	const auto range = std::make_pair(start, start + size);
	auto it = available_ranges_.upper_bound(range);
	if (it == available_ranges_.begin())
	return false; // No ranges includes range.start().

	--it; // Now it starts equal or before range.start().
	return it->second >= range.second;
	}

	int GetBlockImpl(unsigned long pos, unsigned char* pBuf, unsigned long size) {
	if (!IsDataAvailImpl(pos, size))
	return 0;
	const unsigned long end =
	std::min(static_cast<unsigned long>(file_length_), pos + size);
	if (end <= pos)
	return 0;
	memcpy(pBuf, file_contents_.get() + pos, end - pos);
	SetDataAvailable(pos, end - pos);
	return static_cast<int>(end - pos);
	}

	void AddSegmentImpl(size_t offset, size_t size) {
	requested_segments_.push_back(std::make_pair(offset, size));
	max_requested_bound_ = std::max(max_requested_bound_, offset + size);
	}

	bool IsDataAvailImpl(size_t offset, size_t size) {
	if (offset + size > file_length_)
	return false;
	if (is_new_data_available_) {
	SetDataAvailable(offset, size);
	return true;
	}
	return CheckDataAlreadyAvailable(offset, size);
	}

	static int SGetBlock(void* param,
	unsigned long pos,
	unsigned char* pBuf,
	unsigned long size) {
	return static_cast<TestAsyncLoader*>(param)->GetBlockImpl(pos, pBuf, size);
	}

	static void SAddSegment(FX_DOWNLOADHINTS* pThis, size_t offset, size_t size) {
	return static_cast<TestAsyncLoader*>(pThis)->AddSegmentImpl(offset, size);
	}

	static FPDF_BOOL SIsDataAvail(FX_FILEAVAIL* pThis,
	size_t offset,
	size_t size) {
	return static_cast<TestAsyncLoader*>(pThis)->IsDataAvailImpl(offset, size);
	}

	FPDF_FILEACCESS file_access_;

	std::unique_ptr<char, pdfium::FreeDeleter> file_contents_;
	size_t file_length_;
	std::vector<std::pair<size_t, size_t>> requested_segments_;
	size_t max_requested_bound_ = 0;
	bool is_new_data_available_ = true;

	using Range = std::pair<size_t, size_t>;
	struct range_compare {
	bool operator()(const Range& lval, const Range& rval) const {
	return lval.first < rval.first;
	}
	};
	using RangesContainer = std::set<Range, range_compare>;
	RangesContainer available_ranges_;
	};

	} // namespace

	class FPDFDataAvailEmbeddertest : public EmbedderTest {};

	TEST_F(FPDFDataAvailEmbeddertest, TrailerUnterminated) {
	// Document must load without crashing but is too malformed to be available.
	EXPECT_FALSE(OpenDocument("trailer_unterminated.pdf"));
	EXPECT_FALSE(FPDFAvail_IsDocAvail(avail_, &hints_));
	}

	TEST_F(FPDFDataAvailEmbeddertest, TrailerAsHexstring) {
	// Document must load without crashing but is too malformed to be available.
	EXPECT_FALSE(OpenDocument("trailer_as_hexstring.pdf"));
	EXPECT_FALSE(FPDFAvail_IsDocAvail(avail_, &hints_));
	}

	TEST_F(FPDFDataAvailEmbeddertest, LoadUsingHintTables) {
	TestAsyncLoader loader("feature_linearized_loading.pdf");
	avail_ = FPDFAvail_Create(loader.file_avail(), loader.file_access());
	ASSERT_EQ(PDF_DATA_AVAIL, FPDFAvail_IsDocAvail(avail_, loader.hints()));
	document_ = FPDFAvail_GetDocument(avail_, nullptr);
	ASSERT_TRUE(document_);
	ASSERT_EQ(PDF_DATA_AVAIL, FPDFAvail_IsPageAvail(avail_, 1, loader.hints()));

	// No new data available, to prevent load "Pages" node.
	loader.set_is_new_data_available(false);
	FPDF_PAGE page = LoadPage(1);
	EXPECT_TRUE(page);
	UnloadPage(page);
	}

	TEST_F(FPDFDataAvailEmbeddertest,
	DoNotLoadMainCrossRefForFirstPageIfLinearized) {
	TestAsyncLoader loader("feature_linearized_loading.pdf");
	avail_ = FPDFAvail_Create(loader.file_avail(), loader.file_access());
	ASSERT_EQ(PDF_DATA_AVAIL, FPDFAvail_IsDocAvail(avail_, loader.hints()));
	document_ = FPDFAvail_GetDocument(avail_, nullptr);
	ASSERT_TRUE(document_);
	const int first_page_num = FPDFAvail_GetFirstPageNum(document_);

	// The main cross ref table should not be processed.
	// (It is always at file end)
	EXPECT_GT(loader.file_access()->m_FileLen,
	loader.max_already_available_bound());

	// Prevent access to non requested data to coerce the parser to send new
	// request for non available (non requested before) data.
	loader.set_is_new_data_available(false);
	FPDFAvail_IsPageAvail(avail_, first_page_num, loader.hints());

	// The main cross ref table should not be requested.
	// (It is always at file end)
	EXPECT_GT(loader.file_access()->m_FileLen, loader.max_requested_bound());

	// Allow parse page.
	loader.set_is_new_data_available(true);
	ASSERT_EQ(PDF_DATA_AVAIL,
	FPDFAvail_IsPageAvail(avail_, first_page_num, loader.hints()));

	// The main cross ref table should not be processed.
	// (It is always at file end)
	EXPECT_GT(loader.file_access()->m_FileLen,
	loader.max_already_available_bound());

	// Prevent loading data, while page loading.
	loader.set_is_new_data_available(false);
	FPDF_PAGE page = LoadPage(first_page_num);
	EXPECT_TRUE(page);
	UnloadPage(page);
	}