// Copyright (c) 2013 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 "base/debug/crash_logging.h" #include <map> #include <string> #include "base/bind.h" #include "testing/gtest/include/gtest/gtest.h" namespace { std::map<std::string, std::string>* key_values_ = NULL; } // namespace class CrashLoggingTest : public testing::Test { public: virtual void SetUp() { key_values_ = new std::map<std::string, std::string>; base::debug::SetCrashKeyReportingFunctions( &CrashLoggingTest::SetKeyValue, &CrashLoggingTest::ClearKeyValue); } virtual void TearDown() { base::debug::ResetCrashLoggingForTesting(); delete key_values_; key_values_ = NULL; } private: static void SetKeyValue(const base::StringPiece& key, const base::StringPiece& value) { (*key_values_)[key.as_string()] = value.as_string(); } static void ClearKeyValue(const base::StringPiece& key) { key_values_->erase(key.as_string()); } }; TEST_F(CrashLoggingTest, SetClearSingle) { const char* kTestKey = "test-key"; base::debug::CrashKey keys[] = { { kTestKey, 255 } }; base::debug::InitCrashKeys(keys, arraysize(keys), 255); base::debug::SetCrashKeyValue(kTestKey, "value"); EXPECT_EQ("value", (*key_values_)[kTestKey]); base::debug::ClearCrashKey(kTestKey); EXPECT_TRUE(key_values_->end() == key_values_->find(kTestKey)); } TEST_F(CrashLoggingTest, SetChunked) { const char* kTestKey = "chunky"; const char* kChunk1 = "chunky-1"; const char* kChunk2 = "chunky-2"; const char* kChunk3 = "chunky-3"; base::debug::CrashKey keys[] = { { kTestKey, 15 } }; base::debug::InitCrashKeys(keys, arraysize(keys), 5); std::map<std::string, std::string>& values = *key_values_; // Fill only the first chunk. base::debug::SetCrashKeyValue(kTestKey, "foo"); EXPECT_EQ(1u, values.size()); EXPECT_EQ("foo", values[kChunk1]); EXPECT_TRUE(values.end() == values.find(kChunk2)); EXPECT_TRUE(values.end() == values.find(kChunk3)); // Fill three chunks with truncation (max length is 15, this string is 20). base::debug::SetCrashKeyValue(kTestKey, "five four three two"); EXPECT_EQ(3u, values.size()); EXPECT_EQ("five ", values[kChunk1]); EXPECT_EQ("four ", values[kChunk2]); EXPECT_EQ("three", values[kChunk3]); // Clear everything. base::debug::ClearCrashKey(kTestKey); EXPECT_EQ(0u, values.size()); EXPECT_TRUE(values.end() == values.find(kChunk1)); EXPECT_TRUE(values.end() == values.find(kChunk2)); EXPECT_TRUE(values.end() == values.find(kChunk3)); // Refill all three chunks with truncation, then test that setting a smaller // value clears the third chunk. base::debug::SetCrashKeyValue(kTestKey, "five four three two"); base::debug::SetCrashKeyValue(kTestKey, "allays"); EXPECT_EQ(2u, values.size()); EXPECT_EQ("allay", values[kChunk1]); EXPECT_EQ("s", values[kChunk2]); EXPECT_TRUE(values.end() == values.find(kChunk3)); // Clear everything. base::debug::ClearCrashKey(kTestKey); EXPECT_EQ(0u, values.size()); EXPECT_TRUE(values.end() == values.find(kChunk1)); EXPECT_TRUE(values.end() == values.find(kChunk2)); EXPECT_TRUE(values.end() == values.find(kChunk3)); } TEST_F(CrashLoggingTest, ScopedCrashKey) { const char* kTestKey = "test-key"; base::debug::CrashKey keys[] = { { kTestKey, 255 } }; base::debug::InitCrashKeys(keys, arraysize(keys), 255); EXPECT_EQ(0u, key_values_->size()); EXPECT_TRUE(key_values_->end() == key_values_->find(kTestKey)); { base::debug::ScopedCrashKey scoped_crash_key(kTestKey, "value"); EXPECT_EQ("value", (*key_values_)[kTestKey]); EXPECT_EQ(1u, key_values_->size()); } EXPECT_EQ(0u, key_values_->size()); EXPECT_TRUE(key_values_->end() == key_values_->find(kTestKey)); } TEST_F(CrashLoggingTest, InitSize) { base::debug::CrashKey keys[] = { { "chunked-3", 15 }, { "single", 5 }, { "chunked-6", 30 }, }; size_t num_keys = base::debug::InitCrashKeys(keys, arraysize(keys), 5); EXPECT_EQ(10u, num_keys); EXPECT_TRUE(base::debug::LookupCrashKey("chunked-3")); EXPECT_TRUE(base::debug::LookupCrashKey("single")); EXPECT_TRUE(base::debug::LookupCrashKey("chunked-6")); EXPECT_FALSE(base::debug::LookupCrashKey("chunked-6-4")); } TEST_F(CrashLoggingTest, ChunkValue) { using base::debug::ChunkCrashKeyValue; // Test truncation. base::debug::CrashKey key = { "chunky", 10 }; std::vector<std::string> results = ChunkCrashKeyValue(key, "hello world", 64); ASSERT_EQ(1u, results.size()); EXPECT_EQ("hello worl", results[0]); // Test short string. results = ChunkCrashKeyValue(key, "hi", 10); ASSERT_EQ(1u, results.size()); EXPECT_EQ("hi", results[0]); // Test chunk pair. key.max_length = 6; results = ChunkCrashKeyValue(key, "foobar", 3); ASSERT_EQ(2u, results.size()); EXPECT_EQ("foo", results[0]); EXPECT_EQ("bar", results[1]); // Test chunk pair truncation. results = ChunkCrashKeyValue(key, "foobared", 3); ASSERT_EQ(2u, results.size()); EXPECT_EQ("foo", results[0]); EXPECT_EQ("bar", results[1]); // Test extra chunks. key.max_length = 100; results = ChunkCrashKeyValue(key, "hello world", 3); ASSERT_EQ(4u, results.size()); EXPECT_EQ("hel", results[0]); EXPECT_EQ("lo ", results[1]); EXPECT_EQ("wor", results[2]); EXPECT_EQ("ld", results[3]); } TEST_F(CrashLoggingTest, ChunkRounding) { // If max_length=12 and max_chunk_length=5, there should be 3 chunks, // not 2. base::debug::CrashKey key = { "round", 12 }; EXPECT_EQ(3u, base::debug::InitCrashKeys(&key, 1, 5)); }