components/metrics: Add runtime memory leak detector

components/metrics/leak_detector/leak_analyzer_unittest.cc

Index: components/metrics/leak_detector/leak_analyzer_unittest.cc
diff --git a/components/metrics/leak_detector/leak_analyzer_unittest.cc b/components/metrics/leak_detector/leak_analyzer_unittest.cc
new file mode 100644
index 0000000000000000000000000000000000000000..00087085af8ebe47ed4547ce250eedec7535cbeb
--- /dev/null
+++ b/components/metrics/leak_detector/leak_analyzer_unittest.cc
@@ -0,0 +1,362 @@
+// Copyright 2015 The Chromium 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 "components/metrics/leak_detector/leak_analyzer.h"
+
+#include "base/macros.h"
+#include "components/metrics/leak_detector/custom_allocator.h"
+#include "components/metrics/leak_detector/ranked_list.h"
+#include "testing/gtest/include/gtest/gtest.h"
+
+namespace metrics {
+namespace leak_detector {
+
+namespace {
+
+// Default ranking size and threshold used for leak analysis.
+const int kDefaultRankedListSize = 10;
+const int kDefaultLeakThreshold = 5;
+
+// Makes it easier to instantiate LeakDetectorValueTypes. Instantiates with an
+// integer value that indicates an allocation size. Storing the size allows us
+// to track the storage of the LeakDetectorValueType object within LeakAnalyzer.
+//
+// There is no need to test this with call stacks in addition to sizes because
+// call stacks will be contained in a LeakDetectorValueType object as well.
+LeakDetectorValueType Size(uint32_t value) {
+  return LeakDetectorValueType(value);
+}
+
+}  // namespace
+
+class LeakAnalyzerTest : public ::testing::Test {
+ public:
+  LeakAnalyzerTest() {}
+
+  void SetUp() override { CustomAllocator::Initialize(); }
+  void TearDown() override { EXPECT_TRUE(CustomAllocator::Shutdown()); }
+
+ private:
+  DISALLOW_COPY_AND_ASSIGN(LeakAnalyzerTest);
+};
+
+TEST_F(LeakAnalyzerTest, Empty) {
+  LeakAnalyzer analyzer(kDefaultRankedListSize, kDefaultLeakThreshold);
+  EXPECT_TRUE(analyzer.suspected_leaks().empty());
+}
+
+TEST_F(LeakAnalyzerTest, SingleSize) {
+  LeakAnalyzer analyzer(kDefaultRankedListSize, kDefaultLeakThreshold);
+
+  for (int i = 0; i < kDefaultLeakThreshold + 20; ++i) {
+    RankedList list(kDefaultRankedListSize);
+    list.Add(Size(24), 10);
+    analyzer.AddSample(list.Pass());
+
+    // No leaks should have been detected.
+    EXPECT_TRUE(analyzer.suspected_leaks().empty());
+  }
+}
+
+TEST_F(LeakAnalyzerTest, VariousSizesWithoutIncrease) {
+  LeakAnalyzer analyzer(kDefaultRankedListSize, kDefaultLeakThreshold);
+
+  for (int i = 0; i < kDefaultLeakThreshold + 20; ++i) {
+    RankedList list(kDefaultRankedListSize);
+    list.Add(Size(24), 30);
+    list.Add(Size(32), 10);
+    list.Add(Size(56), 90);
+    list.Add(Size(64), 40);
+    analyzer.AddSample(list.Pass());
+
+    // No leaks should have been detected.
+    EXPECT_TRUE(analyzer.suspected_leaks().empty());
+  }
+}
+
+TEST_F(LeakAnalyzerTest, VariousSizesWithEqualIncrease) {
+  LeakAnalyzer analyzer(kDefaultRankedListSize, kDefaultLeakThreshold);
+
+  for (int i = 0; i < kDefaultLeakThreshold + 20; ++i) {
+    RankedList list(kDefaultRankedListSize);
+    list.Add(Size(24), 30 + i * 10);
+    list.Add(Size(32), 10 + i * 10);
+    list.Add(Size(56), 90 + i * 10);
+    list.Add(Size(64), 40 + i * 10);
+    analyzer.AddSample(list.Pass());
+
+    // No leaks should have been detected.
+    EXPECT_TRUE(analyzer.suspected_leaks().empty());
+  }
+}
+
+TEST_F(LeakAnalyzerTest, NotEnoughRunsToTriggerLeakReport) {
+  LeakAnalyzer analyzer(kDefaultRankedListSize, kDefaultLeakThreshold);
+
+  // Run this one iteration short of the number of cycles needed to trigger a
+  // leak report. Because LeakAnalyzer requires |kDefaultLeakThreshold|
+  // suspicions based on deltas between AddSample() calls, the below loop needs
+  // to run |kDefaultLeakThreshold + 1| times to trigger a leak report.
+  for (int i = 0; i <= kDefaultLeakThreshold - 1; ++i) {
+    RankedList list(kDefaultRankedListSize);
+    list.Add(Size(24), 30 + i * 10);  // This one has a potential leak.
+    list.Add(Size(32), 10 + i * 2);
+    list.Add(Size(56), 90 + i);
+    list.Add(Size(64), 40 + i / 2);
+    analyzer.AddSample(list.Pass());
+
+    // No leaks should have been detected.
+    EXPECT_TRUE(analyzer.suspected_leaks().empty());
+  }
+}
+
+TEST_F(LeakAnalyzerTest, LeakSingleSize) {
+  LeakAnalyzer analyzer(kDefaultRankedListSize, kDefaultLeakThreshold);
+
+  // Run this past the number of iterations required to trigger a leak report.
+  for (int i = 0; i < kDefaultLeakThreshold + 10; ++i) {
+    RankedList list(kDefaultRankedListSize);
+    list.Add(Size(32), 10);
+    list.Add(Size(56), 90);
+    list.Add(Size(24), 30 + i * 10);  // This one has a potential leak.
+    list.Add(Size(64), 40);
+    analyzer.AddSample(list.Pass());
+
+    // No leaks should have been detected initially...
+    if (i < kDefaultLeakThreshold) {
+      EXPECT_TRUE(analyzer.suspected_leaks().empty());
+    } else {
+      // ... but there should be reported leaks once the threshold is reached.
+      const auto& leaks = analyzer.suspected_leaks();
+      ASSERT_EQ(1U, leaks.size());
+      EXPECT_EQ(24U, leaks[0].size());
+    }
+  }
+}
+
+TEST_F(LeakAnalyzerTest, LeakSingleSizeOthersAlsoIncreasing) {
+  LeakAnalyzer analyzer(kDefaultRankedListSize, kDefaultLeakThreshold);
+
+  for (int i = 0; i < kDefaultLeakThreshold + 10; ++i) {
+    RankedList list(kDefaultRankedListSize);
+    list.Add(Size(24), 30 + i * 10);  // This one has a potential leak.
+    list.Add(Size(32), 10 + i * 2);
+    list.Add(Size(56), 90 + i);
+    list.Add(Size(64), 40 + i / 2);
+    analyzer.AddSample(list.Pass());
+
+    // No leaks should have been detected initially...
+    if (i < kDefaultLeakThreshold) {
+      EXPECT_TRUE(analyzer.suspected_leaks().empty());
+    } else {
+      // ... but there should be reported leaks once the threshold is reached.
+      const auto& leaks = analyzer.suspected_leaks();
+      ASSERT_EQ(1U, leaks.size());
+      EXPECT_EQ(24U, leaks[0].size());
+    }
+  }
+}
+
+TEST_F(LeakAnalyzerTest, LeakMultipleSizes) {
+  LeakAnalyzer analyzer(kDefaultRankedListSize, kDefaultLeakThreshold);
+
+  for (int i = 0; i < kDefaultLeakThreshold + 10; ++i) {
+    RankedList list(kDefaultRankedListSize);
+    list.Add(Size(24), 30 + i * 5);
+    list.Add(Size(32), 10 + i * 40);
+    list.Add(Size(56), 90 + i * 30);
+    list.Add(Size(64), 40 + i * 20);
+    list.Add(Size(80), 20 + i * 3);
+    analyzer.AddSample(list.Pass());
+
+    // No leaks should have been detected initially...
+    if (i < kDefaultLeakThreshold) {
+      EXPECT_TRUE(analyzer.suspected_leaks().empty());
+    } else {
+      // ... but there should be reported leaks once the threshold is reached.
+      const auto& leaks = analyzer.suspected_leaks();
+      ASSERT_EQ(3U, leaks.size());
+      // These should be in order of increasing allocation size.
+      EXPECT_EQ(32U, leaks[0].size());
+      EXPECT_EQ(56U, leaks[1].size());
+      EXPECT_EQ(64U, leaks[2].size());
+    }
+  }
+}
+
+TEST_F(LeakAnalyzerTest, LeakMultipleSizesValueOrder) {
+  LeakAnalyzer analyzer(kDefaultRankedListSize, kDefaultLeakThreshold);
+
+  for (int i = 0; i <= kDefaultLeakThreshold; ++i) {
+    RankedList list(kDefaultRankedListSize);
+    // These are similar to LeakMultipleSizes, but the relative order of
+    // allocation increases is different from the relative order of sizes.
+    list.Add(Size(24), 30 + i * 5);
+    list.Add(Size(32), 10 + i * 20);
+    list.Add(Size(56), 90 + i * 40);
+    list.Add(Size(64), 40 + i * 30);
+    list.Add(Size(80), 20 + i * 3);
+    analyzer.AddSample(list.Pass());
+  }
+
+  const auto& leaks = analyzer.suspected_leaks();
+  ASSERT_EQ(3U, leaks.size());
+  // These should be in order of increasing allocation size, NOT in order of
+  // allocation count or deltas.
+  EXPECT_EQ(32U, leaks[0].size());
+  EXPECT_EQ(56U, leaks[1].size());
+  EXPECT_EQ(64U, leaks[2].size());
+}
+
+TEST_F(LeakAnalyzerTest, EqualIncreasesNoLeak) {
+  LeakAnalyzer analyzer(kDefaultRankedListSize, kDefaultLeakThreshold);
+
+  for (int i = 0; i < kDefaultLeakThreshold + 20; ++i) {
+    RankedList list(kDefaultRankedListSize);
+    list.Add(Size(24), 30 + i * 10);
+    list.Add(Size(32), 10 + i * 10);
+    list.Add(Size(56), 90 + i * 10);
+    list.Add(Size(64), 40 + i * 10);
+    list.Add(Size(80), 20 + i * 10);
+    analyzer.AddSample(list.Pass());
+
+    EXPECT_TRUE(analyzer.suspected_leaks().empty());
+  }
+}
+
+TEST_F(LeakAnalyzerTest, NotBigEnoughDeltaGap) {
+  LeakAnalyzer analyzer(kDefaultRankedListSize, kDefaultLeakThreshold);
+
+  for (int i = 0; i < kDefaultLeakThreshold + 20; ++i) {
+    RankedList list(kDefaultRankedListSize);
+    // These all have different increments but there is no clear group of
+    // increases that are larger than the rest.
+    list.Add(Size(24), 30 + i * 80);
+    list.Add(Size(32), 10 + i * 45);
+    list.Add(Size(56), 90 + i * 25);
+    list.Add(Size(64), 40 + i * 15);
+    list.Add(Size(80), 20 + i * 10);
+    analyzer.AddSample(list.Pass());
+
+    EXPECT_TRUE(analyzer.suspected_leaks().empty());
+  }
+}
+
+TEST_F(LeakAnalyzerTest, RepeatedRisesUntilLeakFound) {
+  LeakAnalyzer analyzer(kDefaultRankedListSize, kDefaultLeakThreshold);
+
+  // Remember, there is an extra iteration beyond |kDefaultLeakThreshold| needed
+  // to actually trigger the leak detection.
+  for (int i = 0; i <= kDefaultLeakThreshold - 2; ++i) {
+    RankedList list(kDefaultRankedListSize);
+    list.Add(Size(24), 30 + i * 10);
+    list.Add(Size(32), 10);
+    list.Add(Size(56), 90);
+    list.Add(Size(64), 40);
+    list.Add(Size(80), 20);
+    analyzer.AddSample(list.Pass());
+
+    EXPECT_TRUE(analyzer.suspected_leaks().empty());
+  }
+
+  // Drop back down to 30.
+  for (int i = 0; i <= kDefaultLeakThreshold - 1; ++i) {
+    RankedList list(kDefaultRankedListSize);
+    list.Add(Size(24), 30 + i * 10);
+    list.Add(Size(32), 10);
+    list.Add(Size(56), 90);
+    list.Add(Size(64), 40);
+    list.Add(Size(80), 20);
+    analyzer.AddSample(list.Pass());
+
+    EXPECT_TRUE(analyzer.suspected_leaks().empty());
+  }
+
+  // Drop back down to 30.
+  for (int i = 0; i <= kDefaultLeakThreshold; ++i) {
+    // Initially there should not be any leak detected.
+    EXPECT_TRUE(analyzer.suspected_leaks().empty());
+
+    RankedList list(kDefaultRankedListSize);
+    list.Add(Size(24), 30 + i * 10);
+    list.Add(Size(32), 10);
+    list.Add(Size(56), 90);
+    list.Add(Size(64), 40);
+    list.Add(Size(80), 20);
+    analyzer.AddSample(list.Pass());
+  }
+  const auto& leaks = analyzer.suspected_leaks();
+  ASSERT_EQ(1U, leaks.size());
+  EXPECT_EQ(24U, leaks[0].size());
+}
+
+TEST_F(LeakAnalyzerTest, LeakWithMultipleGroupsOfDeltas) {
+  const int kRankedListSize = 20;
+  LeakAnalyzer analyzer(kRankedListSize, kDefaultLeakThreshold);
+
+  for (int i = 0; i <= kDefaultLeakThreshold; ++i) {
+    RankedList list(kRankedListSize);
+    list.Add(Size(24), 30 + i * 10);  // A group of smaller deltas.
+    list.Add(Size(32), 10 + i * 3);
+    list.Add(Size(80), 20 + i * 5);
+    list.Add(Size(40), 30 + i * 7);
+    list.Add(Size(56), 90);
+    list.Add(Size(64), 40);
+    list.Add(Size(128), 100);
+    list.Add(Size(44), 100 + i * 10);  // A group of medium deltas.
+    list.Add(Size(16), 60 + i * 50);
+    list.Add(Size(4), 20 + i * 40);
+    list.Add(Size(8), 100 + i * 60);
+    list.Add(Size(48), 100);
+    list.Add(Size(72), 60 + i * 240);  // A group of largest deltas.
+    list.Add(Size(28), 100);
+    list.Add(Size(100), 100 + i * 200);
+    list.Add(Size(104), 60 + i * 128);
+    analyzer.AddSample(list.Pass());
+  }
+  // Only the group of largest deltas should be caught.
+  const auto& leaks = analyzer.suspected_leaks();
+  ASSERT_EQ(3U, leaks.size());
+  // These should be in order of increasing allocation size.
+  EXPECT_EQ(72U, leaks[0].size());
+  EXPECT_EQ(100U, leaks[1].size());
+  EXPECT_EQ(104U, leaks[2].size());
+}
+
+TEST_F(LeakAnalyzerTest, LeakMultipleSizesWithLargeThreshold) {
+  const int kLeakThreshold = 50;
+  LeakAnalyzer analyzer(kDefaultRankedListSize, kLeakThreshold);
+
+  for (int i = 0; i <= kLeakThreshold + 10; ++i) {
+    RankedList list(kDefaultRankedListSize);
+    // * - Cluster of larger deltas
+    list.Add(Size(24), 30 + i * 5);
+    list.Add(Size(32), 10 + i * 40);  // *
+    list.Add(Size(56), 90 + i * 30);  // *
+    list.Add(Size(40), 30 + i * 7);
+    list.Add(Size(64), 40 + i * 25);  // *
+    list.Add(Size(80), 20 + i * 3);
+    list.Add(Size(128), 100);
+    list.Add(Size(44), 100 + i * 10);
+    list.Add(Size(16), 60 + i * 50);  // *
+    analyzer.AddSample(list.Pass());
+
+    // No leaks should have been detected initially...
+    if (i < kLeakThreshold) {
+      EXPECT_TRUE(analyzer.suspected_leaks().empty());
+    } else {
+      // ... but there should be reported leaks once the threshold is reached.
+      const auto& leaks = analyzer.suspected_leaks();
+      ASSERT_EQ(4U, leaks.size());
+      // These should be in order of increasing allocation size.
+      EXPECT_EQ(16U, leaks[0].size());
+      EXPECT_EQ(32U, leaks[1].size());
+      EXPECT_EQ(56U, leaks[2].size());
+      EXPECT_EQ(64U, leaks[3].size());
+    }
+  }
+}
+
+}  // namespace leak_detector
+}  // namespace metrics