logd/SerializedFlushToState.cpp - platform/system/logging - Git at Google

 /*
  * 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 "SerializedFlushToState.h"

 #include <limits>

 #include <android-base/logging.h>

 SerializedFlushToState::SerializedFlushToState(uint64_t start, LogMask log_mask,
                                                std::list<SerializedLogChunk>* logs)
     : FlushToState(start, log_mask), logs_(logs) {
     log_id_for_each(i) {
         if (((1 << i) & log_mask) == 0) {
             continue;
         }
         logs_needed_from_next_position_[i] = true;
     }
 }

 SerializedFlushToState::~SerializedFlushToState() {
     log_id_for_each(i) {
         if (log_positions_[i]) {
             log_positions_[i]->buffer_it->DetachReader(this);
         }
     }
 }

 void SerializedFlushToState::CreateLogPosition(log_id_t log_id) {
     CHECK(!logs_[log_id].empty());
     LogPosition log_position;
     auto it = logs_[log_id].begin();
     while (it != logs_[log_id].end() && start() > it->highest_sequence_number()) {
         ++it;
     }
     if (it == logs_[log_id].end()) {
         --it;
     }
     it->AttachReader(this);
     log_position.buffer_it = it;

     // Find the offset of the first log with sequence number >= start().
     int read_offset = 0;
     while (read_offset < it->write_offset()) {
         const auto* entry = it->log_entry(read_offset);
         if (entry->sequence() >= start()) {
             break;
         }
         read_offset += entry->total_len();
     }
     log_position.read_offset = read_offset;

     log_positions_[log_id].emplace(log_position);
 }

 void SerializedFlushToState::UpdateLogsNeeded(log_id_t log_id) {
     auto& buffer_it = log_positions_[log_id]->buffer_it;
     auto read_offset = log_positions_[log_id]->read_offset;

     // If there is another log to read in this buffer, let it be read.
     if (read_offset < buffer_it->write_offset()) {
         logs_needed_from_next_position_[log_id] = false;
     } else if (read_offset == buffer_it->write_offset()) {
         // If there are no more logs to read in this buffer and it's the last buffer, then
         // set logs_needed_from_next_position_ to wait until more logs get logged.
         if (buffer_it == std::prev(logs_[log_id].end())) {
             logs_needed_from_next_position_[log_id] = true;
         } else {
             // Otherwise, if there is another buffer piece, move to that and do the same check.
             buffer_it->DetachReader(this);
             ++buffer_it;
             buffer_it->AttachReader(this);
             log_positions_[log_id]->read_offset = 0;
             if (buffer_it->write_offset() == 0) {
                 logs_needed_from_next_position_[log_id] = true;
             } else {
                 logs_needed_from_next_position_[log_id] = false;
             }
         }
     } else {
         // read_offset > buffer_it->write_offset() should never happen.
         LOG(FATAL) << "read_offset (" << read_offset << ") > buffer_it->write_offset() ("
                    << buffer_it->write_offset() << ")";
     }
 }

 void SerializedFlushToState::CheckForNewLogs() {
     log_id_for_each(i) {
         if (!logs_needed_from_next_position_[i]) {
             continue;
         }
         if (!log_positions_[i]) {
             if (logs_[i].empty()) {
                 continue;
             }
             CreateLogPosition(i);
         }
         UpdateLogsNeeded(i);
     }
 }

 bool SerializedFlushToState::HasUnreadLogs() {
     CheckForNewLogs();
     log_id_for_each(i) {
         if (log_positions_[i] && !logs_needed_from_next_position_[i]) {
             return true;
         }
     }
     return false;
 }

 LogWithId SerializedFlushToState::PopNextUnreadLog() {
     uint64_t min_sequence = std::numeric_limits<uint64_t>::max();
     log_id_t log_id;
     const SerializedLogEntry* entry = nullptr;
     log_id_for_each(i) {
         if (!log_positions_[i] || logs_needed_from_next_position_[i]) {
             continue;
         }
         if (log_positions_[i]->log_entry()->sequence() < min_sequence) {
             log_id = i;
             entry = log_positions_[i]->log_entry();
             min_sequence = entry->sequence();
         }
     }
     CHECK_NE(nullptr, entry);

     log_positions_[log_id]->read_offset += entry->total_len();

     logs_needed_from_next_position_[log_id] = true;

     return {log_id, entry};
 }

 void SerializedFlushToState::Prune(log_id_t log_id) {
     CHECK(log_positions_[log_id].has_value());

     // Decrease the ref count since we're deleting our reference.
     log_positions_[log_id]->buffer_it->DetachReader(this);

     // Delete in the reference.
     log_positions_[log_id].reset();

     // Finally set logs_needed_from_next_position_, so CheckForNewLogs() will re-create the
     // log_position_ object during the next read.
     logs_needed_from_next_position_[log_id] = true;
 }
	/*
	* 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 "SerializedFlushToState.h"

	#include <limits>

	#include <android-base/logging.h>

	SerializedFlushToState::SerializedFlushToState(uint64_t start, LogMask log_mask,
	std::list<SerializedLogChunk>* logs)
	: FlushToState(start, log_mask), logs_(logs) {
	log_id_for_each(i) {
	if (((1 << i) & log_mask) == 0) {
	continue;
	}
	logs_needed_from_next_position_[i] = true;
	}
	}

	SerializedFlushToState::~SerializedFlushToState() {
	log_id_for_each(i) {
	if (log_positions_[i]) {
	log_positions_[i]->buffer_it->DetachReader(this);
	}
	}
	}

	void SerializedFlushToState::CreateLogPosition(log_id_t log_id) {
	CHECK(!logs_[log_id].empty());
	LogPosition log_position;
	auto it = logs_[log_id].begin();
	while (it != logs_[log_id].end() && start() > it->highest_sequence_number()) {
	++it;
	}
	if (it == logs_[log_id].end()) {
	--it;
	}
	it->AttachReader(this);
	log_position.buffer_it = it;

	// Find the offset of the first log with sequence number >= start().
	int read_offset = 0;
	while (read_offset < it->write_offset()) {
	const auto* entry = it->log_entry(read_offset);
	if (entry->sequence() >= start()) {
	break;
	}
	read_offset += entry->total_len();
	}
	log_position.read_offset = read_offset;

	log_positions_[log_id].emplace(log_position);
	}

	void SerializedFlushToState::UpdateLogsNeeded(log_id_t log_id) {
	auto& buffer_it = log_positions_[log_id]->buffer_it;
	auto read_offset = log_positions_[log_id]->read_offset;

	// If there is another log to read in this buffer, let it be read.
	if (read_offset < buffer_it->write_offset()) {
	logs_needed_from_next_position_[log_id] = false;
	} else if (read_offset == buffer_it->write_offset()) {
	// If there are no more logs to read in this buffer and it's the last buffer, then
	// set logs_needed_from_next_position_ to wait until more logs get logged.
	if (buffer_it == std::prev(logs_[log_id].end())) {
	logs_needed_from_next_position_[log_id] = true;
	} else {
	// Otherwise, if there is another buffer piece, move to that and do the same check.
	buffer_it->DetachReader(this);
	++buffer_it;
	buffer_it->AttachReader(this);
	log_positions_[log_id]->read_offset = 0;
	if (buffer_it->write_offset() == 0) {
	logs_needed_from_next_position_[log_id] = true;
	} else {
	logs_needed_from_next_position_[log_id] = false;
	}
	}
	} else {
	// read_offset > buffer_it->write_offset() should never happen.
	LOG(FATAL) << "read_offset (" << read_offset << ") > buffer_it->write_offset() ("
	<< buffer_it->write_offset() << ")";
	}
	}

	void SerializedFlushToState::CheckForNewLogs() {
	log_id_for_each(i) {
	if (!logs_needed_from_next_position_[i]) {
	continue;
	}
	if (!log_positions_[i]) {
	if (logs_[i].empty()) {
	continue;
	}
	CreateLogPosition(i);
	}
	UpdateLogsNeeded(i);
	}
	}

	bool SerializedFlushToState::HasUnreadLogs() {
	CheckForNewLogs();
	log_id_for_each(i) {
	if (log_positions_[i] && !logs_needed_from_next_position_[i]) {
	return true;
	}
	}
	return false;
	}

	LogWithId SerializedFlushToState::PopNextUnreadLog() {
	uint64_t min_sequence = std::numeric_limits<uint64_t>::max();
	log_id_t log_id;
	const SerializedLogEntry* entry = nullptr;
	log_id_for_each(i) {
	if (!log_positions_[i] \|\| logs_needed_from_next_position_[i]) {
	continue;
	}
	if (log_positions_[i]->log_entry()->sequence() < min_sequence) {
	log_id = i;
	entry = log_positions_[i]->log_entry();
	min_sequence = entry->sequence();
	}
	}
	CHECK_NE(nullptr, entry);

	log_positions_[log_id]->read_offset += entry->total_len();

	logs_needed_from_next_position_[log_id] = true;

	return {log_id, entry};
	}

	void SerializedFlushToState::Prune(log_id_t log_id) {
	CHECK(log_positions_[log_id].has_value());

	// Decrease the ref count since we're deleting our reference.
	log_positions_[log_id]->buffer_it->DetachReader(this);

	// Delete in the reference.
	log_positions_[log_id].reset();

	// Finally set logs_needed_from_next_position_, so CheckForNewLogs() will re-create the
	// log_position_ object during the next read.
	logs_needed_from_next_position_[log_id] = true;
	}