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// Copyright (c) 2010, Google Inc.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// static_contained_range_map_unittest.cc: Unit tests for
// StaticContainedRangeMap.
//
// Author: Siyang Xie (lambxsy@google.com)
#include "breakpad_googletest_includes.h"
#include "common/scoped_ptr.h"
#include "processor/contained_range_map-inl.h"
#include "processor/static_contained_range_map-inl.h"
#include "processor/simple_serializer-inl.h"
#include "processor/map_serializers-inl.h"
#include "processor/logging.h"
namespace {
typedef google_breakpad::ContainedRangeMap<unsigned int, int> CRMMap;
typedef google_breakpad::StaticContainedRangeMap<unsigned int, int> TestMap;
// Each element in test_data contains the expected result when calling
// RetrieveRange on an address.
const int test_data[] = {
0, // 0
0, // 1
0, // 2
0, // 3
0, // 4
0, // 5
0, // 6
0, // 7
9, // 8
7, // 9
1, // 10
5, // 11
6, // 12
6, // 13
6, // 14
6, // 15
6, // 16
6, // 17
6, // 18
5, // 19
7, // 20
8, // 21
0, // 22
0, // 23
0, // 24
0, // 25
0, // 26
0, // 27
0, // 28
0, // 29
10, // 30
10, // 31
10, // 32
11, // 33
11, // 34
11, // 35
0, // 36
0, // 37
0, // 38
0, // 39
14, // 40
14, // 41
14, // 42
14, // 43
15, // 44
15, // 45
15, // 46
15, // 47
0, // 48
0, // 49
19, // 50
18, // 51
18, // 52
18, // 53
18, // 54
18, // 55
18, // 56
18, // 57
18, // 58
20, // 59
21, // 60
25, // 61
26, // 62
26, // 63
26, // 64
26, // 65
26, // 66
26, // 67
24, // 68
22, // 69
30, // 70
30, // 71
30, // 72
30, // 73
31, // 74
31, // 75
30, // 76
32, // 77
32, // 78
30, // 79
34, // 80
35, // 81
36, // 82
39, // 83
38, // 84
37, // 85
43, // 86
44, // 87
41, // 88
45, // 89
42, // 90
0, // 91
0, // 92
0, // 93
0, // 94
0, // 95
0, // 96
0, // 97
0, // 98
0 // 99
};
} // namespace
namespace google_breakpad {
class TestStaticCRMMap : public ::testing::Test {
protected:
void SetUp();
// A referrence map for testing StaticCRMMap.
google_breakpad::ContainedRangeMap<unsigned int, int> crm_map_;
// Static version of crm_map using serialized data of crm_map.
// The goal of testing is to make sure TestMap provides same results for
// lookup operation(s) as CRMMap does.
google_breakpad::StaticContainedRangeMap<unsigned int, int> test_map_;
google_breakpad::ContainedRangeMapSerializer<unsigned int, int> serializer_;
scoped_array<char> serialized_data_;
};
void TestStaticCRMMap::SetUp() {
// First, do the StoreRange tests. This validates the containment
// rules.
// We confirm the referrence map correctly stores data during setup.
ASSERT_TRUE (crm_map_.StoreRange(10, 10, 1));
ASSERT_FALSE(crm_map_.StoreRange(10, 10, 2)); // exactly equal to 1
ASSERT_FALSE(crm_map_.StoreRange(11, 10, 3)); // begins inside 1 and extends up
ASSERT_FALSE(crm_map_.StoreRange( 9, 10, 4)); // begins below 1 and ends inside
ASSERT_TRUE (crm_map_.StoreRange(11, 9, 5)); // contained by existing
ASSERT_TRUE (crm_map_.StoreRange(12, 7, 6));
ASSERT_TRUE (crm_map_.StoreRange( 9, 12, 7)); // contains existing
ASSERT_TRUE (crm_map_.StoreRange( 9, 13, 8));
ASSERT_TRUE (crm_map_.StoreRange( 8, 14, 9));
ASSERT_TRUE (crm_map_.StoreRange(30, 3, 10));
ASSERT_TRUE (crm_map_.StoreRange(33, 3, 11));
ASSERT_TRUE (crm_map_.StoreRange(30, 6, 12)); // storable but totally masked
ASSERT_TRUE (crm_map_.StoreRange(40, 8, 13)); // will be totally masked
ASSERT_TRUE (crm_map_.StoreRange(40, 4, 14));
ASSERT_TRUE (crm_map_.StoreRange(44, 4, 15));
ASSERT_FALSE(crm_map_.StoreRange(32, 10, 16)); // begins in #10, ends in #14
ASSERT_FALSE(crm_map_.StoreRange(50, 0, 17)); // zero length
ASSERT_TRUE (crm_map_.StoreRange(50, 10, 18));
ASSERT_TRUE (crm_map_.StoreRange(50, 1, 19));
ASSERT_TRUE (crm_map_.StoreRange(59, 1, 20));
ASSERT_TRUE (crm_map_.StoreRange(60, 1, 21));
ASSERT_TRUE (crm_map_.StoreRange(69, 1, 22));
ASSERT_TRUE (crm_map_.StoreRange(60, 10, 23));
ASSERT_TRUE (crm_map_.StoreRange(68, 1, 24));
ASSERT_TRUE (crm_map_.StoreRange(61, 1, 25));
ASSERT_TRUE (crm_map_.StoreRange(61, 8, 26));
ASSERT_FALSE(crm_map_.StoreRange(59, 9, 27));
ASSERT_FALSE(crm_map_.StoreRange(59, 10, 28));
ASSERT_FALSE(crm_map_.StoreRange(59, 11, 29));
ASSERT_TRUE (crm_map_.StoreRange(70, 10, 30));
ASSERT_TRUE (crm_map_.StoreRange(74, 2, 31));
ASSERT_TRUE (crm_map_.StoreRange(77, 2, 32));
ASSERT_FALSE(crm_map_.StoreRange(72, 6, 33));
ASSERT_TRUE (crm_map_.StoreRange(80, 3, 34));
ASSERT_TRUE (crm_map_.StoreRange(81, 1, 35));
ASSERT_TRUE (crm_map_.StoreRange(82, 1, 36));
ASSERT_TRUE (crm_map_.StoreRange(83, 3, 37));
ASSERT_TRUE (crm_map_.StoreRange(84, 1, 38));
ASSERT_TRUE (crm_map_.StoreRange(83, 1, 39));
ASSERT_TRUE (crm_map_.StoreRange(86, 5, 40));
ASSERT_TRUE (crm_map_.StoreRange(88, 1, 41));
ASSERT_TRUE (crm_map_.StoreRange(90, 1, 42));
ASSERT_TRUE (crm_map_.StoreRange(86, 1, 43));
ASSERT_TRUE (crm_map_.StoreRange(87, 1, 44));
ASSERT_TRUE (crm_map_.StoreRange(89, 1, 45));
ASSERT_TRUE (crm_map_.StoreRange(87, 4, 46));
ASSERT_TRUE (crm_map_.StoreRange(87, 3, 47));
ASSERT_FALSE(crm_map_.StoreRange(86, 2, 48));
// Serialize crm_map to generate serialized data.
unsigned int size;
serialized_data_.reset(serializer_.Serialize(&crm_map_, &size));
BPLOG(INFO) << "Serialized data size: " << size << " Bytes.";
// Construct test_map_ from serialized data.
test_map_ = TestMap(serialized_data_.get());
}
TEST_F(TestStaticCRMMap, TestEmptyMap) {
CRMMap empty_crm_map;
unsigned int size;
scoped_array<char> serialized_data;
serialized_data.reset(serializer_.Serialize(&empty_crm_map, &size));
scoped_ptr<TestMap> test_map(new TestMap(serialized_data.get()));
const unsigned int kCorrectSizeForEmptyMap = 16;
ASSERT_EQ(kCorrectSizeForEmptyMap, size);
const int *entry_test;
ASSERT_FALSE(test_map->RetrieveRange(-1, entry_test));
ASSERT_FALSE(test_map->RetrieveRange(0, entry_test));
ASSERT_FALSE(test_map->RetrieveRange(10, entry_test));
}
TEST_F(TestStaticCRMMap, TestSingleElementMap) {
CRMMap crm_map;
// Test on one element:
int entry = 1;
crm_map.StoreRange(10, 10, entry);
unsigned int size;
scoped_array<char> serialized_data;
serialized_data.reset(serializer_.Serialize(&crm_map, &size));
scoped_ptr<TestMap> test_map(new TestMap(serialized_data.get()));
const unsigned int kCorrectSizeForSingleElementMap = 40;
ASSERT_EQ(kCorrectSizeForSingleElementMap, size);
const int *entry_test;
ASSERT_FALSE(test_map->RetrieveRange(-1, entry_test));
ASSERT_FALSE(test_map->RetrieveRange(0, entry_test));
ASSERT_TRUE(test_map->RetrieveRange(10, entry_test));
ASSERT_EQ(*entry_test, entry);
ASSERT_TRUE(test_map->RetrieveRange(13, entry_test));
ASSERT_EQ(*entry_test, entry);
}
TEST_F(TestStaticCRMMap, RunTestData) {
unsigned int test_high = sizeof(test_data) / sizeof(test_data[0]);
// Now, do the RetrieveRange tests. This further validates that the
// objects were stored properly and that retrieval returns the correct
// object.
// If GENERATE_TEST_DATA is defined, instead of the retrieval tests, a
// new test_data array will be printed. Exercise caution when doing this.
// Be sure to verify the results manually!
#ifdef GENERATE_TEST_DATA
printf(" const int test_data[] = {\n");
#endif // GENERATE_TEST_DATA
for (unsigned int address = 0; address < test_high; ++address) {
const int *entryptr;
int value = 0;
if (test_map_.RetrieveRange(address, entryptr))
value = *entryptr;
#ifndef GENERATE_TEST_DATA
// Don't use ASSERT inside the loop because it won't show the failed
// |address|, and the line number will always be the same. That makes
// it difficult to figure out which test failed.
EXPECT_EQ(value, test_data[address]) << "FAIL: retrieve address "
<< address;
#else // !GENERATE_TEST_DATA
printf(" %d%c%s // %d\n", value,
address == test_high - 1 ? ' ' : ',',
value < 10 ? " " : "",
address);
#endif // !GENERATE_TEST_DATA
}
#ifdef GENERATE_TEST_DATA
printf(" };\n");
#endif // GENERATE_TEST_DATA
}
} // namespace google_breakpad
int main(int argc, char *argv[]) {
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}