logd/ChattyLogBufferTest.cpp - LeafOS-Project/android_system_core - Gitiles

 /*
  * Copyright (C) 2020 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "LogBufferTest.h"

 class ChattyLogBufferTest : public LogBufferTest {};

 TEST_P(ChattyLogBufferTest, deduplication_simple) {
     auto make_message = [&](uint32_t sec, const char* tag, const char* msg,
                             bool regex = false) -> LogMessage {
         logger_entry entry = {
                 .pid = 1, .tid = 1, .sec = sec, .nsec = 1, .lid = LOG_ID_MAIN, .uid = 0};
         std::string message;
         message.push_back(ANDROID_LOG_INFO);
         message.append(tag);
         message.push_back('\0');
         message.append(msg);
         message.push_back('\0');
         return {entry, message, regex};
     };

     // clang-format off
     std::vector<LogMessage> log_messages = {
             make_message(0, "test_tag", "duplicate"),
             make_message(1, "test_tag", "duplicate"),
             make_message(2, "test_tag", "not_same"),
             make_message(3, "test_tag", "duplicate"),
             make_message(4, "test_tag", "duplicate"),
             make_message(5, "test_tag", "not_same"),
             make_message(6, "test_tag", "duplicate"),
             make_message(7, "test_tag", "duplicate"),
             make_message(8, "test_tag", "duplicate"),
             make_message(9, "test_tag", "not_same"),
             make_message(10, "test_tag", "duplicate"),
             make_message(11, "test_tag", "duplicate"),
             make_message(12, "test_tag", "duplicate"),
             make_message(13, "test_tag", "duplicate"),
             make_message(14, "test_tag", "duplicate"),
             make_message(15, "test_tag", "duplicate"),
             make_message(16, "test_tag", "not_same"),
             make_message(100, "test_tag", "duplicate"),
             make_message(200, "test_tag", "duplicate"),
             make_message(300, "test_tag", "duplicate"),
     };
     // clang-format on
     FixupMessages(&log_messages);
     LogMessages(log_messages);

     std::vector<LogMessage> read_log_messages;
     std::unique_ptr<LogWriter> test_writer(new TestWriter(&read_log_messages, nullptr));
     std::unique_ptr<FlushToState> flush_to_state = log_buffer_->CreateFlushToState(1, kLogMaskAll);
     EXPECT_TRUE(log_buffer_->FlushTo(test_writer.get(), *flush_to_state, nullptr));

     std::vector<LogMessage> expected_log_messages = {
             make_message(0, "test_tag", "duplicate"),
             make_message(1, "test_tag", "duplicate"),
             make_message(2, "test_tag", "not_same"),
             make_message(3, "test_tag", "duplicate"),
             make_message(4, "test_tag", "duplicate"),
             make_message(5, "test_tag", "not_same"),
             // 3 duplicate logs together print the first, a 1 count chatty message, then the last.
             make_message(6, "test_tag", "duplicate"),
             make_message(7, "chatty", "uid=0\\([^\\)]+\\) [^ ]+ identical 1 line", true),
             make_message(8, "test_tag", "duplicate"),
             make_message(9, "test_tag", "not_same"),
             // 6 duplicate logs together print the first, a 4 count chatty message, then the last.
             make_message(10, "test_tag", "duplicate"),
             make_message(14, "chatty", "uid=0\\([^\\)]+\\) [^ ]+ identical 4 lines", true),
             make_message(15, "test_tag", "duplicate"),
             make_message(16, "test_tag", "not_same"),
             // duplicate logs > 1 minute apart are not deduplicated.
             make_message(100, "test_tag", "duplicate"),
             make_message(200, "test_tag", "duplicate"),
             make_message(300, "test_tag", "duplicate"),
     };
     FixupMessages(&expected_log_messages);
     CompareLogMessages(expected_log_messages, read_log_messages);
 };

 TEST_P(ChattyLogBufferTest, deduplication_overflow) {
     auto make_message = [&](uint32_t sec, const char* tag, const char* msg,
                             bool regex = false) -> LogMessage {
         logger_entry entry = {
                 .pid = 1, .tid = 1, .sec = sec, .nsec = 1, .lid = LOG_ID_MAIN, .uid = 0};
         std::string message;
         message.push_back(ANDROID_LOG_INFO);
         message.append(tag);
         message.push_back('\0');
         message.append(msg);
         message.push_back('\0');
         return {entry, message, regex};
     };

     uint32_t sec = 0;
     std::vector<LogMessage> log_messages = {
             make_message(sec++, "test_tag", "normal"),
     };
     size_t expired_per_chatty_message = std::numeric_limits<uint16_t>::max();
     for (size_t i = 0; i < expired_per_chatty_message + 3; ++i) {
         log_messages.emplace_back(make_message(sec++, "test_tag", "duplicate"));
     }
     log_messages.emplace_back(make_message(sec++, "test_tag", "normal"));
     FixupMessages(&log_messages);
     LogMessages(log_messages);

     std::vector<LogMessage> read_log_messages;
     std::unique_ptr<LogWriter> test_writer(new TestWriter(&read_log_messages, nullptr));
     std::unique_ptr<FlushToState> flush_to_state = log_buffer_->CreateFlushToState(1, kLogMaskAll);
     EXPECT_TRUE(log_buffer_->FlushTo(test_writer.get(), *flush_to_state, nullptr));

     std::vector<LogMessage> expected_log_messages = {
             make_message(0, "test_tag", "normal"),
             make_message(1, "test_tag", "duplicate"),
             make_message(expired_per_chatty_message + 1, "chatty",
                          "uid=0\\([^\\)]+\\) [^ ]+ identical 65535 lines", true),
             make_message(expired_per_chatty_message + 2, "chatty",
                          "uid=0\\([^\\)]+\\) [^ ]+ identical 1 line", true),
             make_message(expired_per_chatty_message + 3, "test_tag", "duplicate"),
             make_message(expired_per_chatty_message + 4, "test_tag", "normal"),
     };
     FixupMessages(&expected_log_messages);
     CompareLogMessages(expected_log_messages, read_log_messages);
 }

 TEST_P(ChattyLogBufferTest, deduplication_liblog) {
     auto make_message = [&](uint32_t sec, int32_t tag, int32_t count) -> LogMessage {
         logger_entry entry = {
                 .pid = 1, .tid = 1, .sec = sec, .nsec = 1, .lid = LOG_ID_EVENTS, .uid = 0};
         android_log_event_int_t liblog_event = {
                 .header.tag = tag, .payload.type = EVENT_TYPE_INT, .payload.data = count};
         return {entry, std::string(reinterpret_cast<char*>(&liblog_event), sizeof(liblog_event)),
                 false};
     };

     // LIBLOG_LOG_TAG
     std::vector<LogMessage> log_messages = {
             make_message(0, 1234, 1),
             make_message(1, LIBLOG_LOG_TAG, 3),
             make_message(2, 1234, 2),
             make_message(3, LIBLOG_LOG_TAG, 3),
             make_message(4, LIBLOG_LOG_TAG, 4),
             make_message(5, 1234, 223),
             make_message(6, LIBLOG_LOG_TAG, 2),
             make_message(7, LIBLOG_LOG_TAG, 3),
             make_message(8, LIBLOG_LOG_TAG, 4),
             make_message(9, 1234, 227),
             make_message(10, LIBLOG_LOG_TAG, 1),
             make_message(11, LIBLOG_LOG_TAG, 3),
             make_message(12, LIBLOG_LOG_TAG, 2),
             make_message(13, LIBLOG_LOG_TAG, 3),
             make_message(14, LIBLOG_LOG_TAG, 5),
             make_message(15, 1234, 227),
             make_message(16, LIBLOG_LOG_TAG, 2),
             make_message(17, LIBLOG_LOG_TAG, std::numeric_limits<int32_t>::max()),
             make_message(18, LIBLOG_LOG_TAG, 3),
             make_message(19, LIBLOG_LOG_TAG, 5),
             make_message(20, 1234, 227),
     };
     FixupMessages(&log_messages);
     LogMessages(log_messages);

     std::vector<LogMessage> read_log_messages;
     std::unique_ptr<LogWriter> test_writer(new TestWriter(&read_log_messages, nullptr));
     std::unique_ptr<FlushToState> flush_to_state = log_buffer_->CreateFlushToState(1, kLogMaskAll);
     EXPECT_TRUE(log_buffer_->FlushTo(test_writer.get(), *flush_to_state, nullptr));

     std::vector<LogMessage> expected_log_messages = {
             make_message(0, 1234, 1),
             make_message(1, LIBLOG_LOG_TAG, 3),
             make_message(2, 1234, 2),
             make_message(3, LIBLOG_LOG_TAG, 3),
             make_message(4, LIBLOG_LOG_TAG, 4),
             make_message(5, 1234, 223),
             // More than 2 liblog events (3 here), sum their value into the third message.
             make_message(6, LIBLOG_LOG_TAG, 2),
             make_message(8, LIBLOG_LOG_TAG, 7),
             make_message(9, 1234, 227),
             // More than 2 liblog events (5 here), sum their value into the third message.
             make_message(10, LIBLOG_LOG_TAG, 1),
             make_message(14, LIBLOG_LOG_TAG, 13),
             make_message(15, 1234, 227),
             // int32_t max is the max for a chatty message, beyond that we must use new messages.
             make_message(16, LIBLOG_LOG_TAG, 2),
             make_message(17, LIBLOG_LOG_TAG, std::numeric_limits<int32_t>::max()),
             make_message(19, LIBLOG_LOG_TAG, 8),
             make_message(20, 1234, 227),
     };
     FixupMessages(&expected_log_messages);
     CompareLogMessages(expected_log_messages, read_log_messages);
 };

 TEST_P(ChattyLogBufferTest, no_leading_chatty_simple) {
     auto make_message = [&](uint32_t sec, int32_t pid, uint32_t uid, uint32_t lid, const char* tag,
                             const char* msg, bool regex = false) -> LogMessage {
         logger_entry entry = {.pid = pid, .tid = 1, .sec = sec, .nsec = 1, .lid = lid, .uid = uid};
         std::string message;
         message.push_back(ANDROID_LOG_INFO);
         message.append(tag);
         message.push_back('\0');
         message.append(msg);
         message.push_back('\0');
         return {entry, message, regex};
     };

     // clang-format off
     std::vector<LogMessage> log_messages = {
             make_message(1, 1, 1, LOG_ID_MAIN, "test_tag", "duplicate1"),
             make_message(2, 2, 2, LOG_ID_SYSTEM, "test_tag", "duplicate2"),
             make_message(3, 2, 2, LOG_ID_SYSTEM, "test_tag", "duplicate2"),
             make_message(4, 2, 2, LOG_ID_SYSTEM, "test_tag", "duplicate2"),
             make_message(6, 2, 2, LOG_ID_SYSTEM, "test_tag", "not duplicate2"),
             make_message(7, 1, 1, LOG_ID_MAIN, "test_tag", "duplicate1"),
             make_message(8, 1, 1, LOG_ID_MAIN, "test_tag", "duplicate1"),
             make_message(9, 1, 1, LOG_ID_MAIN, "test_tag", "duplicate1"),
             make_message(10, 1, 1, LOG_ID_MAIN, "test_tag", "not duplicate1"),
     };
     // clang-format on
     FixupMessages(&log_messages);
     LogMessages(log_messages);

     // After logging log_messages, the below is what should be in the buffer:
     // PID=1, LOG_ID_MAIN duplicate1
     // [1] PID=2, LOG_ID_SYSTEM duplicate2
     // PID=2, LOG_ID_SYSTEM chatty drop
     // PID=2, LOG_ID_SYSTEM duplicate2
     // PID=2, LOG_ID_SYSTEM not duplicate2
     // [2] PID=1, LOG_ID_MAIN chatty drop
     // [3] PID=1, LOG_ID_MAIN duplicate1
     // PID=1, LOG_ID_MAIN not duplicate1

     // We then read from the 2nd sequence number, starting from log message [1], but filtering out
     // everything but PID=1, which results in us starting with log message [2], which is a chatty
     // drop.  Code prior to this test case would erroneously print it.  The intended behavior that
     // this test checks prints logs starting from log message [3].

     // clang-format off
     std::vector<LogMessage> expected_log_messages = {
             make_message(9, 1, 1, LOG_ID_MAIN, "test_tag", "duplicate1"),
             make_message(10, 1, 1, LOG_ID_MAIN, "test_tag", "not duplicate1"),
     };
     FixupMessages(&expected_log_messages);
     // clang-format on

     std::vector<LogMessage> read_log_messages;
     bool released = false;
     {
         auto lock = std::unique_lock{reader_list_.reader_threads_lock()};
         std::unique_ptr<LogWriter> test_writer(new TestWriter(&read_log_messages, &released));
         std::unique_ptr<LogReaderThread> log_reader(
                 new LogReaderThread(log_buffer_.get(), &reader_list_, std::move(test_writer), true,
                                     0, ~0, 1, {}, 2, {}));
         reader_list_.reader_threads().emplace_back(std::move(log_reader));
     }

     while (!released) {
         usleep(5000);
     }

     CompareLogMessages(expected_log_messages, read_log_messages);
 }

 TEST_P(ChattyLogBufferTest, no_leading_chatty_tail) {
     auto make_message = [&](uint32_t sec, const char* tag, const char* msg,
                             bool regex = false) -> LogMessage {
         logger_entry entry = {
                 .pid = 1, .tid = 1, .sec = sec, .nsec = 1, .lid = LOG_ID_MAIN, .uid = 0};
         std::string message;
         message.push_back(ANDROID_LOG_INFO);
         message.append(tag);
         message.push_back('\0');
         message.append(msg);
         message.push_back('\0');
         return {entry, message, regex};
     };

     // clang-format off
     std::vector<LogMessage> log_messages = {
             make_message(1, "test_tag", "duplicate"),
             make_message(2, "test_tag", "duplicate"),
             make_message(3, "test_tag", "duplicate"),
             make_message(4, "test_tag", "not_duplicate"),
     };
     // clang-format on
     FixupMessages(&log_messages);
     LogMessages(log_messages);

     // After logging log_messages, the below is what should be in the buffer:
     // "duplicate"
     // chatty
     // "duplicate"
     // "not duplicate"

     // We then read the tail 3 messages expecting there to not be a chatty message, meaning that we
     // should only see the last two messages.

     // clang-format off
     std::vector<LogMessage> expected_log_messages = {
             make_message(3, "test_tag", "duplicate"),
             make_message(4, "test_tag", "not_duplicate"),
     };
     FixupMessages(&expected_log_messages);
     // clang-format on

     std::vector<LogMessage> read_log_messages;
     bool released = false;
     {
         auto lock = std::unique_lock{reader_list_.reader_threads_lock()};
         std::unique_ptr<LogWriter> test_writer(new TestWriter(&read_log_messages, &released));
         std::unique_ptr<LogReaderThread> log_reader(
                 new LogReaderThread(log_buffer_.get(), &reader_list_, std::move(test_writer), true,
                                     3, ~0, 0, {}, 1, {}));
         reader_list_.reader_threads().emplace_back(std::move(log_reader));
     }

     while (!released) {
         usleep(5000);
     }

     CompareLogMessages(expected_log_messages, read_log_messages);
 }

 INSTANTIATE_TEST_CASE_P(ChattyLogBufferTests, ChattyLogBufferTest, testing::Values("chatty"));
	/*
	* Copyright (C) 2020 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "LogBufferTest.h"

	class ChattyLogBufferTest : public LogBufferTest {};

	TEST_P(ChattyLogBufferTest, deduplication_simple) {
	auto make_message = [&](uint32_t sec, const char* tag, const char* msg,
	bool regex = false) -> LogMessage {
	logger_entry entry = {
	.pid = 1, .tid = 1, .sec = sec, .nsec = 1, .lid = LOG_ID_MAIN, .uid = 0};
	std::string message;
	message.push_back(ANDROID_LOG_INFO);
	message.append(tag);
	message.push_back('\0');
	message.append(msg);
	message.push_back('\0');
	return {entry, message, regex};
	};

	// clang-format off
	std::vector<LogMessage> log_messages = {
	make_message(0, "test_tag", "duplicate"),
	make_message(1, "test_tag", "duplicate"),
	make_message(2, "test_tag", "not_same"),
	make_message(3, "test_tag", "duplicate"),
	make_message(4, "test_tag", "duplicate"),
	make_message(5, "test_tag", "not_same"),
	make_message(6, "test_tag", "duplicate"),
	make_message(7, "test_tag", "duplicate"),
	make_message(8, "test_tag", "duplicate"),
	make_message(9, "test_tag", "not_same"),
	make_message(10, "test_tag", "duplicate"),
	make_message(11, "test_tag", "duplicate"),
	make_message(12, "test_tag", "duplicate"),
	make_message(13, "test_tag", "duplicate"),
	make_message(14, "test_tag", "duplicate"),
	make_message(15, "test_tag", "duplicate"),
	make_message(16, "test_tag", "not_same"),
	make_message(100, "test_tag", "duplicate"),
	make_message(200, "test_tag", "duplicate"),
	make_message(300, "test_tag", "duplicate"),
	};
	// clang-format on
	FixupMessages(&log_messages);
	LogMessages(log_messages);

	std::vector<LogMessage> read_log_messages;
	std::unique_ptr<LogWriter> test_writer(new TestWriter(&read_log_messages, nullptr));
	std::unique_ptr<FlushToState> flush_to_state = log_buffer_->CreateFlushToState(1, kLogMaskAll);
	EXPECT_TRUE(log_buffer_->FlushTo(test_writer.get(), *flush_to_state, nullptr));

	std::vector<LogMessage> expected_log_messages = {
	make_message(0, "test_tag", "duplicate"),
	make_message(1, "test_tag", "duplicate"),
	make_message(2, "test_tag", "not_same"),
	make_message(3, "test_tag", "duplicate"),
	make_message(4, "test_tag", "duplicate"),
	make_message(5, "test_tag", "not_same"),
	// 3 duplicate logs together print the first, a 1 count chatty message, then the last.
	make_message(6, "test_tag", "duplicate"),
	make_message(7, "chatty", "uid=0\\([^\\)]+\\) [^ ]+ identical 1 line", true),
	make_message(8, "test_tag", "duplicate"),
	make_message(9, "test_tag", "not_same"),
	// 6 duplicate logs together print the first, a 4 count chatty message, then the last.
	make_message(10, "test_tag", "duplicate"),
	make_message(14, "chatty", "uid=0\\([^\\)]+\\) [^ ]+ identical 4 lines", true),
	make_message(15, "test_tag", "duplicate"),
	make_message(16, "test_tag", "not_same"),
	// duplicate logs > 1 minute apart are not deduplicated.
	make_message(100, "test_tag", "duplicate"),
	make_message(200, "test_tag", "duplicate"),
	make_message(300, "test_tag", "duplicate"),
	};
	FixupMessages(&expected_log_messages);
	CompareLogMessages(expected_log_messages, read_log_messages);
	};

	TEST_P(ChattyLogBufferTest, deduplication_overflow) {
	auto make_message = [&](uint32_t sec, const char* tag, const char* msg,
	bool regex = false) -> LogMessage {
	logger_entry entry = {
	.pid = 1, .tid = 1, .sec = sec, .nsec = 1, .lid = LOG_ID_MAIN, .uid = 0};
	std::string message;
	message.push_back(ANDROID_LOG_INFO);
	message.append(tag);
	message.push_back('\0');
	message.append(msg);
	message.push_back('\0');
	return {entry, message, regex};
	};

	uint32_t sec = 0;
	std::vector<LogMessage> log_messages = {
	make_message(sec++, "test_tag", "normal"),
	};
	size_t expired_per_chatty_message = std::numeric_limits<uint16_t>::max();
	for (size_t i = 0; i < expired_per_chatty_message + 3; ++i) {
	log_messages.emplace_back(make_message(sec++, "test_tag", "duplicate"));
	}
	log_messages.emplace_back(make_message(sec++, "test_tag", "normal"));
	FixupMessages(&log_messages);
	LogMessages(log_messages);

	std::vector<LogMessage> read_log_messages;
	std::unique_ptr<LogWriter> test_writer(new TestWriter(&read_log_messages, nullptr));
	std::unique_ptr<FlushToState> flush_to_state = log_buffer_->CreateFlushToState(1, kLogMaskAll);
	EXPECT_TRUE(log_buffer_->FlushTo(test_writer.get(), *flush_to_state, nullptr));

	std::vector<LogMessage> expected_log_messages = {
	make_message(0, "test_tag", "normal"),
	make_message(1, "test_tag", "duplicate"),
	make_message(expired_per_chatty_message + 1, "chatty",
	"uid=0\\([^\\)]+\\) [^ ]+ identical 65535 lines", true),
	make_message(expired_per_chatty_message + 2, "chatty",
	"uid=0\\([^\\)]+\\) [^ ]+ identical 1 line", true),
	make_message(expired_per_chatty_message + 3, "test_tag", "duplicate"),
	make_message(expired_per_chatty_message + 4, "test_tag", "normal"),
	};
	FixupMessages(&expected_log_messages);
	CompareLogMessages(expected_log_messages, read_log_messages);
	}

	TEST_P(ChattyLogBufferTest, deduplication_liblog) {
	auto make_message = [&](uint32_t sec, int32_t tag, int32_t count) -> LogMessage {
	logger_entry entry = {
	.pid = 1, .tid = 1, .sec = sec, .nsec = 1, .lid = LOG_ID_EVENTS, .uid = 0};
	android_log_event_int_t liblog_event = {
	.header.tag = tag, .payload.type = EVENT_TYPE_INT, .payload.data = count};
	return {entry, std::string(reinterpret_cast<char*>(&liblog_event), sizeof(liblog_event)),
	false};
	};

	// LIBLOG_LOG_TAG
	std::vector<LogMessage> log_messages = {
	make_message(0, 1234, 1),
	make_message(1, LIBLOG_LOG_TAG, 3),
	make_message(2, 1234, 2),
	make_message(3, LIBLOG_LOG_TAG, 3),
	make_message(4, LIBLOG_LOG_TAG, 4),
	make_message(5, 1234, 223),
	make_message(6, LIBLOG_LOG_TAG, 2),
	make_message(7, LIBLOG_LOG_TAG, 3),
	make_message(8, LIBLOG_LOG_TAG, 4),
	make_message(9, 1234, 227),
	make_message(10, LIBLOG_LOG_TAG, 1),
	make_message(11, LIBLOG_LOG_TAG, 3),
	make_message(12, LIBLOG_LOG_TAG, 2),
	make_message(13, LIBLOG_LOG_TAG, 3),
	make_message(14, LIBLOG_LOG_TAG, 5),
	make_message(15, 1234, 227),
	make_message(16, LIBLOG_LOG_TAG, 2),
	make_message(17, LIBLOG_LOG_TAG, std::numeric_limits<int32_t>::max()),
	make_message(18, LIBLOG_LOG_TAG, 3),
	make_message(19, LIBLOG_LOG_TAG, 5),
	make_message(20, 1234, 227),
	};
	FixupMessages(&log_messages);
	LogMessages(log_messages);

	std::vector<LogMessage> read_log_messages;
	std::unique_ptr<LogWriter> test_writer(new TestWriter(&read_log_messages, nullptr));
	std::unique_ptr<FlushToState> flush_to_state = log_buffer_->CreateFlushToState(1, kLogMaskAll);
	EXPECT_TRUE(log_buffer_->FlushTo(test_writer.get(), *flush_to_state, nullptr));

	std::vector<LogMessage> expected_log_messages = {
	make_message(0, 1234, 1),
	make_message(1, LIBLOG_LOG_TAG, 3),
	make_message(2, 1234, 2),
	make_message(3, LIBLOG_LOG_TAG, 3),
	make_message(4, LIBLOG_LOG_TAG, 4),
	make_message(5, 1234, 223),
	// More than 2 liblog events (3 here), sum their value into the third message.
	make_message(6, LIBLOG_LOG_TAG, 2),
	make_message(8, LIBLOG_LOG_TAG, 7),
	make_message(9, 1234, 227),
	// More than 2 liblog events (5 here), sum their value into the third message.
	make_message(10, LIBLOG_LOG_TAG, 1),
	make_message(14, LIBLOG_LOG_TAG, 13),
	make_message(15, 1234, 227),
	// int32_t max is the max for a chatty message, beyond that we must use new messages.
	make_message(16, LIBLOG_LOG_TAG, 2),
	make_message(17, LIBLOG_LOG_TAG, std::numeric_limits<int32_t>::max()),
	make_message(19, LIBLOG_LOG_TAG, 8),
	make_message(20, 1234, 227),
	};
	FixupMessages(&expected_log_messages);
	CompareLogMessages(expected_log_messages, read_log_messages);
	};

	TEST_P(ChattyLogBufferTest, no_leading_chatty_simple) {
	auto make_message = [&](uint32_t sec, int32_t pid, uint32_t uid, uint32_t lid, const char* tag,
	const char* msg, bool regex = false) -> LogMessage {
	logger_entry entry = {.pid = pid, .tid = 1, .sec = sec, .nsec = 1, .lid = lid, .uid = uid};
	std::string message;
	message.push_back(ANDROID_LOG_INFO);
	message.append(tag);
	message.push_back('\0');
	message.append(msg);
	message.push_back('\0');
	return {entry, message, regex};
	};

	// clang-format off
	std::vector<LogMessage> log_messages = {
	make_message(1, 1, 1, LOG_ID_MAIN, "test_tag", "duplicate1"),
	make_message(2, 2, 2, LOG_ID_SYSTEM, "test_tag", "duplicate2"),
	make_message(3, 2, 2, LOG_ID_SYSTEM, "test_tag", "duplicate2"),
	make_message(4, 2, 2, LOG_ID_SYSTEM, "test_tag", "duplicate2"),
	make_message(6, 2, 2, LOG_ID_SYSTEM, "test_tag", "not duplicate2"),
	make_message(7, 1, 1, LOG_ID_MAIN, "test_tag", "duplicate1"),
	make_message(8, 1, 1, LOG_ID_MAIN, "test_tag", "duplicate1"),
	make_message(9, 1, 1, LOG_ID_MAIN, "test_tag", "duplicate1"),
	make_message(10, 1, 1, LOG_ID_MAIN, "test_tag", "not duplicate1"),
	};
	// clang-format on
	FixupMessages(&log_messages);
	LogMessages(log_messages);

	// After logging log_messages, the below is what should be in the buffer:
	// PID=1, LOG_ID_MAIN duplicate1
	// [1] PID=2, LOG_ID_SYSTEM duplicate2
	// PID=2, LOG_ID_SYSTEM chatty drop
	// PID=2, LOG_ID_SYSTEM duplicate2
	// PID=2, LOG_ID_SYSTEM not duplicate2
	// [2] PID=1, LOG_ID_MAIN chatty drop
	// [3] PID=1, LOG_ID_MAIN duplicate1
	// PID=1, LOG_ID_MAIN not duplicate1

	// We then read from the 2nd sequence number, starting from log message [1], but filtering out
	// everything but PID=1, which results in us starting with log message [2], which is a chatty
	// drop. Code prior to this test case would erroneously print it. The intended behavior that
	// this test checks prints logs starting from log message [3].

	// clang-format off
	std::vector<LogMessage> expected_log_messages = {
	make_message(9, 1, 1, LOG_ID_MAIN, "test_tag", "duplicate1"),
	make_message(10, 1, 1, LOG_ID_MAIN, "test_tag", "not duplicate1"),
	};
	FixupMessages(&expected_log_messages);
	// clang-format on

	std::vector<LogMessage> read_log_messages;
	bool released = false;
	{
	auto lock = std::unique_lock{reader_list_.reader_threads_lock()};
	std::unique_ptr<LogWriter> test_writer(new TestWriter(&read_log_messages, &released));
	std::unique_ptr<LogReaderThread> log_reader(
	new LogReaderThread(log_buffer_.get(), &reader_list_, std::move(test_writer), true,
	0, ~0, 1, {}, 2, {}));
	reader_list_.reader_threads().emplace_back(std::move(log_reader));
	}

	while (!released) {
	usleep(5000);
	}

	CompareLogMessages(expected_log_messages, read_log_messages);
	}

	TEST_P(ChattyLogBufferTest, no_leading_chatty_tail) {
	auto make_message = [&](uint32_t sec, const char* tag, const char* msg,
	bool regex = false) -> LogMessage {
	logger_entry entry = {
	.pid = 1, .tid = 1, .sec = sec, .nsec = 1, .lid = LOG_ID_MAIN, .uid = 0};
	std::string message;
	message.push_back(ANDROID_LOG_INFO);
	message.append(tag);
	message.push_back('\0');
	message.append(msg);
	message.push_back('\0');
	return {entry, message, regex};
	};

	// clang-format off
	std::vector<LogMessage> log_messages = {
	make_message(1, "test_tag", "duplicate"),
	make_message(2, "test_tag", "duplicate"),
	make_message(3, "test_tag", "duplicate"),
	make_message(4, "test_tag", "not_duplicate"),
	};
	// clang-format on
	FixupMessages(&log_messages);
	LogMessages(log_messages);

	// After logging log_messages, the below is what should be in the buffer:
	// "duplicate"
	// chatty
	// "duplicate"
	// "not duplicate"

	// We then read the tail 3 messages expecting there to not be a chatty message, meaning that we
	// should only see the last two messages.

	// clang-format off
	std::vector<LogMessage> expected_log_messages = {
	make_message(3, "test_tag", "duplicate"),
	make_message(4, "test_tag", "not_duplicate"),
	};
	FixupMessages(&expected_log_messages);
	// clang-format on

	std::vector<LogMessage> read_log_messages;
	bool released = false;
	{
	auto lock = std::unique_lock{reader_list_.reader_threads_lock()};
	std::unique_ptr<LogWriter> test_writer(new TestWriter(&read_log_messages, &released));
	std::unique_ptr<LogReaderThread> log_reader(
	new LogReaderThread(log_buffer_.get(), &reader_list_, std::move(test_writer), true,
	3, ~0, 0, {}, 1, {}));
	reader_list_.reader_threads().emplace_back(std::move(log_reader));
	}

	while (!released) {
	usleep(5000);
	}

	CompareLogMessages(expected_log_messages, read_log_messages);
	}

	INSTANTIATE_TEST_CASE_P(ChattyLogBufferTests, ChattyLogBufferTest, testing::Values("chatty"));