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// Copyright 2017 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/fpdfdoc/cpdf_nametree.h"
#include "core/fpdfapi/parser/cpdf_array.h"
#include "core/fpdfapi/parser/cpdf_dictionary.h"
#include "core/fpdfapi/parser/cpdf_number.h"
#include "core/fpdfapi/parser/cpdf_string.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "third_party/base/ptr_util.h"
namespace {
void AddNameKeyValue(CPDF_Array* pNames, const char* key, const int value) {
pNames->AddNew<CPDF_String>(key, false);
pNames->AddNew<CPDF_Number>(value);
}
void CheckNameKeyValue(CPDF_Array* pNames,
const int index,
const char* key,
const int value) {
EXPECT_STREQ(key, pNames->GetStringAt(index * 2).c_str());
EXPECT_EQ(value, pNames->GetIntegerAt(index * 2 + 1));
}
void AddLimitsArray(CPDF_Dictionary* pNode,
const char* least,
const char* greatest) {
CPDF_Array* pLimits = pNode->SetNewFor<CPDF_Array>("Limits");
pLimits->AddNew<CPDF_String>(least, false);
pLimits->AddNew<CPDF_String>(greatest, false);
}
void CheckLimitsArray(CPDF_Dictionary* pNode,
const char* least,
const char* greatest) {
CPDF_Array* pLimits = pNode->GetArrayFor("Limits");
ASSERT_TRUE(pLimits);
EXPECT_STREQ(least, pLimits->GetStringAt(0).c_str());
EXPECT_STREQ(greatest, pLimits->GetStringAt(1).c_str());
}
void FillNameTreeDict(CPDF_Dictionary* pRootDict) {
CPDF_Array* pKids = pRootDict->SetNewFor<CPDF_Array>("Kids");
CPDF_Dictionary* pKid1 = pKids->AddNew<CPDF_Dictionary>();
// Make the lower and upper limit out of order on purpose.
AddLimitsArray(pKid1, "9.txt", "1.txt");
pKids = pKid1->SetNewFor<CPDF_Array>("Kids");
CPDF_Dictionary* pKid2 = pKids->AddNew<CPDF_Dictionary>();
CPDF_Dictionary* pKid3 = pKids->AddNew<CPDF_Dictionary>();
AddLimitsArray(pKid2, "1.txt", "5.txt");
pKids = pKid2->SetNewFor<CPDF_Array>("Kids");
CPDF_Dictionary* pKid4 = pKids->AddNew<CPDF_Dictionary>();
CPDF_Dictionary* pKid5 = pKids->AddNew<CPDF_Dictionary>();
AddLimitsArray(pKid3, "9.txt", "9.txt");
CPDF_Array* pNames = pKid3->SetNewFor<CPDF_Array>("Names");
AddNameKeyValue(pNames, "9.txt", 999);
// Make the lower and upper limit out of order on purpose.
AddLimitsArray(pKid4, "2.txt", "1.txt");
pNames = pKid4->SetNewFor<CPDF_Array>("Names");
AddNameKeyValue(pNames, "1.txt", 111);
AddNameKeyValue(pNames, "2.txt", 222);
AddLimitsArray(pKid5, "3.txt", "5.txt");
pNames = pKid5->SetNewFor<CPDF_Array>("Names");
AddNameKeyValue(pNames, "3.txt", 333);
AddNameKeyValue(pNames, "5.txt", 555);
}
} // namespace
TEST(cpdf_nametree, GetUnicodeNameWithBOM) {
// Set up the root dictionary with a Names array.
auto pRootDict = pdfium::MakeUnique<CPDF_Dictionary>();
CPDF_Array* pNames = pRootDict->SetNewFor<CPDF_Array>("Names");
// Add the key "1" (with BOM) and value 100 into the array.
std::ostringstream buf;
constexpr char kData[] = "\xFE\xFF\x00\x31";
for (size_t i = 0; i < sizeof(kData); ++i)
buf.put(kData[i]);
pNames->AddNew<CPDF_String>(ByteString(buf), true);
pNames->AddNew<CPDF_Number>(100);
// Check that the key is as expected.
CPDF_NameTree nameTree(pRootDict.get());
WideString storedName;
nameTree.LookupValueAndName(0, &storedName);
EXPECT_STREQ(L"1", storedName.c_str());
// Check that the correct value object can be obtained by looking up "1".
WideString matchName = L"1";
CPDF_Object* pObj = nameTree.LookupValue(matchName);
ASSERT_TRUE(pObj->IsNumber());
EXPECT_EQ(100, pObj->AsNumber()->GetInteger());
}
TEST(cpdf_nametree, AddIntoNames) {
// Set up a name tree with a single Names array.
auto pRootDict = pdfium::MakeUnique<CPDF_Dictionary>();
CPDF_Array* pNames = pRootDict->SetNewFor<CPDF_Array>("Names");
AddNameKeyValue(pNames, "2.txt", 222);
AddNameKeyValue(pNames, "7.txt", 777);
CPDF_NameTree nameTree(pRootDict.get());
pNames = nameTree.GetRoot()->GetArrayFor("Names");
// Insert a name that already exists in the names array.
EXPECT_FALSE(
nameTree.AddValueAndName(pdfium::MakeUnique<CPDF_Number>(111), L"2.txt"));
// Insert in the beginning of the names array.
EXPECT_TRUE(
nameTree.AddValueAndName(pdfium::MakeUnique<CPDF_Number>(111), L"1.txt"));
// Insert in the middle of the names array.
EXPECT_TRUE(
nameTree.AddValueAndName(pdfium::MakeUnique<CPDF_Number>(555), L"5.txt"));
// Insert at the end of the names array.
EXPECT_TRUE(
nameTree.AddValueAndName(pdfium::MakeUnique<CPDF_Number>(999), L"9.txt"));
// Check that the names array has the expected key-value pairs.
CheckNameKeyValue(pNames, 0, "1.txt", 111);
CheckNameKeyValue(pNames, 1, "2.txt", 222);
CheckNameKeyValue(pNames, 2, "5.txt", 555);
CheckNameKeyValue(pNames, 3, "7.txt", 777);
CheckNameKeyValue(pNames, 4, "9.txt", 999);
}
TEST(cpdf_nametree, AddIntoKids) {
// Set up a name tree with five nodes of three levels.
auto pRootDict = pdfium::MakeUnique<CPDF_Dictionary>();
FillNameTreeDict(pRootDict.get());
CPDF_NameTree nameTree(pRootDict.get());
// Check that adding an existing name would fail.
EXPECT_FALSE(
nameTree.AddValueAndName(pdfium::MakeUnique<CPDF_Number>(444), L"9.txt"));
// Add a name within the limits of a leaf node.
EXPECT_TRUE(
nameTree.AddValueAndName(pdfium::MakeUnique<CPDF_Number>(444), L"4.txt"));
ASSERT_TRUE(nameTree.LookupValue(L"4.txt"));
EXPECT_EQ(444, nameTree.LookupValue(L"4.txt")->GetInteger());
// Add a name that requires changing the limits of two bottom levels.
EXPECT_TRUE(
nameTree.AddValueAndName(pdfium::MakeUnique<CPDF_Number>(666), L"6.txt"));
ASSERT_TRUE(nameTree.LookupValue(L"6.txt"));
EXPECT_EQ(666, nameTree.LookupValue(L"6.txt")->GetInteger());
// Add a name that requires changing the limits of two top levels.
EXPECT_TRUE(
nameTree.AddValueAndName(pdfium::MakeUnique<CPDF_Number>(99), L"99.txt"));
ASSERT_TRUE(nameTree.LookupValue(L"99.txt"));
EXPECT_EQ(99, nameTree.LookupValue(L"99.txt")->GetInteger());
// Add a name that requires changing the lower limit of all levels.
EXPECT_TRUE(
nameTree.AddValueAndName(pdfium::MakeUnique<CPDF_Number>(-5), L"0.txt"));
ASSERT_TRUE(nameTree.LookupValue(L"0.txt"));
EXPECT_EQ(-5, nameTree.LookupValue(L"0.txt")->GetInteger());
// Check that the node on the first level has the expected limits.
CPDF_Dictionary* pKid1 =
nameTree.GetRoot()->GetArrayFor("Kids")->GetDictAt(0);
ASSERT_TRUE(pKid1);
CheckLimitsArray(pKid1, "0.txt", "99.txt");
// Check that the nodes on the second level has the expected limits and names.
CPDF_Dictionary* pKid2 = pKid1->GetArrayFor("Kids")->GetDictAt(0);
ASSERT_TRUE(pKid2);
CheckLimitsArray(pKid2, "0.txt", "6.txt");
CPDF_Dictionary* pKid3 = pKid1->GetArrayFor("Kids")->GetDictAt(1);
ASSERT_TRUE(pKid3);
CheckLimitsArray(pKid3, "9.txt", "99.txt");
CPDF_Array* pNames = pKid3->GetArrayFor("Names");
ASSERT_TRUE(pNames);
CheckNameKeyValue(pNames, 0, "9.txt", 999);
CheckNameKeyValue(pNames, 1, "99.txt", 99);
// Check that the nodes on the third level has the expected limits and names.
CPDF_Dictionary* pKid4 = pKid2->GetArrayFor("Kids")->GetDictAt(0);
ASSERT_TRUE(pKid4);
CheckLimitsArray(pKid4, "0.txt", "2.txt");
pNames = pKid4->GetArrayFor("Names");
ASSERT_TRUE(pNames);
CheckNameKeyValue(pNames, 0, "0.txt", -5);
CheckNameKeyValue(pNames, 1, "1.txt", 111);
CheckNameKeyValue(pNames, 2, "2.txt", 222);
CPDF_Dictionary* pKid5 = pKid2->GetArrayFor("Kids")->GetDictAt(1);
ASSERT_TRUE(pKid5);
CheckLimitsArray(pKid5, "3.txt", "6.txt");
pNames = pKid5->GetArrayFor("Names");
ASSERT_TRUE(pNames);
CheckNameKeyValue(pNames, 0, "3.txt", 333);
CheckNameKeyValue(pNames, 1, "4.txt", 444);
CheckNameKeyValue(pNames, 2, "5.txt", 555);
CheckNameKeyValue(pNames, 3, "6.txt", 666);
}
TEST(cpdf_nametree, DeleteFromKids) {
// Set up a name tree with five nodes of three levels.
auto pRootDict = pdfium::MakeUnique<CPDF_Dictionary>();
FillNameTreeDict(pRootDict.get());
CPDF_NameTree nameTree(pRootDict.get());
// Retrieve the kid dictionaries.
CPDF_Dictionary* pKid1 =
nameTree.GetRoot()->GetArrayFor("Kids")->GetDictAt(0);
ASSERT_TRUE(pKid1);
CPDF_Dictionary* pKid2 = pKid1->GetArrayFor("Kids")->GetDictAt(0);
ASSERT_TRUE(pKid2);
CPDF_Dictionary* pKid3 = pKid1->GetArrayFor("Kids")->GetDictAt(1);
ASSERT_TRUE(pKid3);
CPDF_Dictionary* pKid4 = pKid2->GetArrayFor("Kids")->GetDictAt(0);
ASSERT_TRUE(pKid4);
CPDF_Dictionary* pKid5 = pKid2->GetArrayFor("Kids")->GetDictAt(1);
ASSERT_TRUE(pKid5);
// Check that deleting an out-of-bound index would fail.
EXPECT_FALSE(nameTree.DeleteValueAndName(5));
// Delete the name "9.txt", and check that its node gets deleted and its
// parent node's limits get updated.
WideString csName;
ASSERT_TRUE(nameTree.LookupValue(L"9.txt"));
EXPECT_EQ(999, nameTree.LookupValue(L"9.txt")->GetInteger());
EXPECT_TRUE(nameTree.LookupValueAndName(4, &csName));
EXPECT_STREQ(L"9.txt", csName.c_str());
EXPECT_EQ(2u, pKid1->GetArrayFor("Kids")->size());
EXPECT_TRUE(nameTree.DeleteValueAndName(4));
EXPECT_EQ(1u, pKid1->GetArrayFor("Kids")->size());
CheckLimitsArray(pKid1, "1.txt", "5.txt");
// Delete the name "2.txt", and check that its node does not get deleted, its
// node's limits get updated, and no other limits get updated.
ASSERT_TRUE(nameTree.LookupValue(L"2.txt"));
EXPECT_EQ(222, nameTree.LookupValue(L"2.txt")->GetInteger());
EXPECT_TRUE(nameTree.LookupValueAndName(1, &csName));
EXPECT_STREQ(L"2.txt", csName.c_str());
EXPECT_EQ(4u, pKid4->GetArrayFor("Names")->size());
EXPECT_TRUE(nameTree.DeleteValueAndName(1));
EXPECT_EQ(2u, pKid4->GetArrayFor("Names")->size());
CheckLimitsArray(pKid4, "1.txt", "1.txt");
CheckLimitsArray(pKid2, "1.txt", "5.txt");
CheckLimitsArray(pKid1, "1.txt", "5.txt");
// Delete the name "1.txt", and check that its node gets deleted, and its
// parent's and gradparent's limits get updated.
ASSERT_TRUE(nameTree.LookupValue(L"1.txt"));
EXPECT_EQ(111, nameTree.LookupValue(L"1.txt")->GetInteger());
EXPECT_TRUE(nameTree.LookupValueAndName(0, &csName));
EXPECT_STREQ(L"1.txt", csName.c_str());
EXPECT_EQ(2u, pKid2->GetArrayFor("Kids")->size());
EXPECT_TRUE(nameTree.DeleteValueAndName(0));
EXPECT_EQ(1u, pKid2->GetArrayFor("Kids")->size());
CheckLimitsArray(pKid2, "3.txt", "5.txt");
CheckLimitsArray(pKid1, "3.txt", "5.txt");
// Delete the name "3.txt", and check that its node does not get deleted, and
// its node's, its parent's, and its grandparent's limits get updated.
ASSERT_TRUE(nameTree.LookupValue(L"3.txt"));
EXPECT_EQ(333, nameTree.LookupValue(L"3.txt")->GetInteger());
EXPECT_TRUE(nameTree.LookupValueAndName(0, &csName));
EXPECT_STREQ(L"3.txt", csName.c_str());
EXPECT_EQ(4u, pKid5->GetArrayFor("Names")->size());
EXPECT_TRUE(nameTree.DeleteValueAndName(0));
EXPECT_EQ(2u, pKid5->GetArrayFor("Names")->size());
CheckLimitsArray(pKid5, "5.txt", "5.txt");
CheckLimitsArray(pKid2, "5.txt", "5.txt");
CheckLimitsArray(pKid1, "5.txt", "5.txt");
// Delete the name "5.txt", and check that all nodes in the tree get deleted
// since they are now all empty.
ASSERT_TRUE(nameTree.LookupValue(L"5.txt"));
EXPECT_EQ(555, nameTree.LookupValue(L"5.txt")->GetInteger());
EXPECT_TRUE(nameTree.LookupValueAndName(0, &csName));
EXPECT_STREQ(L"5.txt", csName.c_str());
EXPECT_EQ(1u, nameTree.GetRoot()->GetArrayFor("Kids")->size());
EXPECT_TRUE(nameTree.DeleteValueAndName(0));
EXPECT_EQ(0u, nameTree.GetRoot()->GetArrayFor("Kids")->size());
// Check that the tree is now empty.
EXPECT_EQ(0u, nameTree.GetCount());
EXPECT_FALSE(nameTree.LookupValueAndName(0, &csName));
EXPECT_FALSE(nameTree.DeleteValueAndName(0));
}
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