croslog/log_line_reader.cc - mirrors/cros/chromiumos/platform2 - Git at Google

 // Copyright 2020 The Chromium OS 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 "croslog/log_line_reader.h"

 #include <algorithm>
 #include <string>
 #include <utility>

 #include <fcntl.h>
 #include <sys/mman.h>
 #include <sys/stat.h>
 #include <sys/types.h>

 #include "base/bind.h"
 #include "base/files/file.h"
 #include "base/files/file_util.h"
 #include "base/strings/string_util.h"

 #include "croslog/file_map_reader.h"

 namespace croslog {

 namespace {
 // Maximum length of line in bytes.
 static int64_t g_max_line_length = 1024 * 1024;
 }  // namespace

 // static
 void LogLineReader::SetMaxLineLengthForTest(int64_t max_line_length) {
   CHECK_LE(max_line_length, FileMapReader::GetChunkSizeInBytes());
   CHECK_GE(max_line_length, 0);
   g_max_line_length = max_line_length;
 }

 LogLineReader::LogLineReader(Backend backend_mode)
     : backend_mode_(backend_mode) {
   // Checks the assumption of this logic.
   DCHECK_GE(FileMapReader::GetChunkSizeInBytes(), g_max_line_length);
 }

 LogLineReader::~LogLineReader() {
   if (file_change_watcher_)
     file_change_watcher_->RemoveWatch(file_path_);
 }

 void LogLineReader::OpenFile(const base::FilePath& file_path) {
   CHECK(backend_mode_ == Backend::FILE ||
         backend_mode_ == Backend::FILE_FOLLOW);

   // Ensure the values are not initialized.
   CHECK(file_path_.empty());

   file_ = base::File(file_path, base::File::FLAG_OPEN | base::File::FLAG_READ);
   if (!file_.IsValid()) {
     LOG(ERROR) << "Could not open " << file_path;
     return;
   }
   file_path_ = file_path;
   pos_ = 0;

   // TODO(yoshiki): Use stat_wrapper_t and File::FStat after libchrome uprev.
   struct stat file_stat;
   if (fstat(file_.GetPlatformFile(), &file_stat) == 0)
     file_inode_ = file_stat.st_ino;
   DCHECK_NE(0, file_inode_);

   if (backend_mode_ == Backend::FILE_FOLLOW) {
     // Race may happen when the file rotates just after file opens.
     // TODO(yoshiki): detect the race. Maybe we can use /proc/self/fd/$fd.
     file_change_watcher_ = FileChangeWatcher::GetInstance();
     bool ret = file_change_watcher_->AddWatch(file_path_, this);
     if (!ret) {
       LOG(ERROR) << "Failed to install FileChangeWatcher for " << file_path_
                  << ".";
       file_change_watcher_ = nullptr;
     }
   }

   reader_ = FileMapReader::CreateReader(file_.Duplicate());
 }

 void LogLineReader::OpenMemoryBufferForTest(const char* buffer, size_t size) {
   CHECK(backend_mode_ == Backend::MEMORY_FOR_TEST);
   reader_ = FileMapReader::CreateFileMapReaderDelegateImplMemoryReaderForTest(
       (const uint8_t*)buffer, size);
 }

 void LogLineReader::SetPositionLast() {
   // At first, sets the position to EOF.
   pos_ = reader_->GetFileSize();
   DCHECK_LE(0, pos_);

   // Calculates the maximum traversable range in the file and allocate a buffer.
   int64_t pos_traversal_start = std::max(pos_ - g_max_line_length, INT64_C(0));
   int64_t traversal_length = std::min(g_max_line_length, pos_);

   // Allocates a buffer of the segment from |pos_traversal_start| to EOF.
   auto buffer = reader_->MapBuffer(pos_traversal_start, traversal_length);
   CHECK(buffer->valid()) << "Mmap failed. Maybe the file has been truncated.";

   // Traverses in reverse order to find the last LF.
   while (pos_ > pos_traversal_start && buffer->GetChar(pos_ - 1) != '\n')
     pos_--;

   if (pos_ != 0 && pos_ <= pos_traversal_start) {
     LOG(ERROR) << "The last line is too long to handle (more than: "
                << g_max_line_length
                << "bytes). Lines around here may be broken.";
     // Sets the position to the last as a sloppy solution.
     pos_ = reader_->GetFileSize();
   }
 }

 // Ensure the file path is initialized.
 void LogLineReader::ReloadRotatedFile() {
   CHECK(backend_mode_ == Backend::FILE_FOLLOW);

   DCHECK(rotated_);
   DCHECK(PathExists(file_path_));

   rotated_ = false;

   CHECK(file_change_watcher_);
   file_change_watcher_->RemoveWatch(file_path_);

   base::FilePath file_path = file_path_;
   file_path_.clear();
   reader_.reset();
   file_inode_ = 0;
   pos_ = 0;

   OpenFile(file_path);
   if (!file_.IsValid()) {
     LOG(FATAL) << "File looks rotated, but new file can't be opened.";
   }
   reader_ = FileMapReader::CreateReader(file_.Duplicate());
 }

 base::Optional<std::string> LogLineReader::Forward() {
   DCHECK_LE(0, pos_);

   // Checks the current position is at the beginning of the line.
   if (pos_ != 0) {
     auto buffer = reader_->MapBuffer(pos_ - 1, 1);
     CHECK(buffer->valid()) << "Mmap failed. Maybe the file has been truncated"
                            << " and the current read position got invalid.";

     if (buffer->GetChar(pos_ - 1) != '\n') {
       LOG(WARNING) << "The line is odd. The line is too long or the file is"
                    << " unexpectedly changed.";
     }
   }

   // Calculate the maximum traversable size to allocate.
   int64_t traversal_length =
       std::min(g_max_line_length, reader_->GetFileSize() - pos_);
   int64_t pos_traversal_end = pos_ + traversal_length;

   // Allocates a buffer of the segment from |pos_| to |pos_traversal_end|.
   auto buffer = reader_->MapBuffer(pos_, traversal_length);
   CHECK(buffer->valid()) << "Mmap failed. Maybe the file has been truncated"
                          << " and the current read position got invalid.";

   // Finds the next LF (end of line).
   int64_t pos_line_end = pos_;

   while (pos_line_end < pos_traversal_end &&
          buffer->GetChar(pos_line_end) != '\n') {
     pos_line_end++;
   }

   if (pos_line_end == reader_->GetFileSize()) {
     // Reaches EOF without '\n'.
     int64_t unread_length = reader_->GetFileSize() - pos_;

     if (rotated_ && unread_length == 0 && PathExists(file_path_)) {
       // Free the mapped buffer so that another buffer map is allowed.
       buffer.reset();

       ReloadRotatedFile();
       return Forward();
     }

     // If next file doesn't exist, leave the remaining string.
     // If next file exists, read the remaining string.
     if (!rotated_)
       return base::nullopt;

     pos_line_end = reader_->GetFileSize();
   } else if (pos_line_end == (pos_ + g_max_line_length)) {
     LOG(ERROR) << "A line is too long to handle (more than "
                << g_max_line_length
                << "bytes). Lines around here may be broken.";
   }

   // Updates the current position.
   int64_t pos_line_start = pos_;
   int64_t line_length = pos_line_end - pos_;
   pos_ = pos_line_end;

   if (pos_ < reader_->GetFileSize()) {
     // Unless the line is too long, proceed the LF.
     if (buffer->GetChar(pos_) == '\n')
       pos_ += 1;
   }

   return GetString(std::move(buffer), pos_line_start, line_length);
 }

 base::Optional<std::string> LogLineReader::Backward() {
   DCHECK_LE(0, pos_);
   if (pos_ == 0)
     return base::nullopt;

   // Calculates the maximum traversable range in the file and allocate a buffer.
   int64_t pos_traversal_start = std::max(pos_ - g_max_line_length, INT64_C(0));
   int64_t traversal_length = pos_ - pos_traversal_start;
   DCHECK_GE(traversal_length, 0);

   // Allocates a buffer of the segment from |pos_traversal_start| to |pos_|.
   auto buffer = reader_->MapBuffer(pos_traversal_start, traversal_length);
   CHECK(buffer->valid()) << "Mmap failed. Maybe the file has been truncated"
                          << " and the current read position got invalid.";

   // Ensures the current position is the beginning of the previous line.
   if (buffer->GetChar(pos_ - 1) != '\n') {
     LOG(WARNING) << "The line is too long or the file is unexpectedly changed."
                  << " The lines read may be broken.";
   }

   // Finds the next LF (at the beginning of the line).
   int64_t last_start = pos_ - 1;
   while (last_start > pos_traversal_start &&
          buffer->GetChar(last_start - 1) != '\n') {
     last_start--;
   }

   // Ensures the next LF is found.
   if (last_start != 0 && last_start <= pos_traversal_start) {
     LOG(ERROR) << "A line is too long to handle (more than "
                << g_max_line_length
                << "bytes). Lines around here may be broken.";
   }

   // Updates the current position.
   int64_t line_length = pos_ - last_start - 1;
   pos_ = last_start;

   return GetString(std::move(buffer), last_start, line_length);
 }

 void LogLineReader::AddObserver(Observer* obs) {
   observers_.AddObserver(obs);
 }

 void LogLineReader::RemoveObserver(Observer* obs) {
   observers_.RemoveObserver(obs);
 }

 std::string LogLineReader::GetString(
     std::unique_ptr<FileMapReader::MappedBuffer> mapped_buffer,
     uint64_t offset,
     uint64_t length) const {
   std::pair<const uint8_t*, size_t> buffer =
       mapped_buffer->GetBuffer(offset, length);

   return std::string(reinterpret_cast<const char*>(buffer.first),
                      buffer.second);
 }

 void LogLineReader::OnFileContentMaybeChanged() {
   CHECK(backend_mode_ == Backend::FILE_FOLLOW);
   CHECK(file_.IsValid());

   // We didn't consider the case of content change without size change. It
   // shouldn't happen with normal log files.

   // Previous file size at (or shortly before) the previous mmap.
   const int64_t previous_file_size = reader_->GetFileSize();
   // Current file size read from the file system.
   const int64_t current_file_size = file_.GetLength();

   if (previous_file_size != current_file_size) {
     reader_->ApplyFileSizeExpansion();
     for (Observer& obs : observers_)
       obs.OnFileChanged(this);
   }
 }

 void LogLineReader::OnFileNameMaybeChanged() {
   CHECK(backend_mode_ == Backend::FILE_FOLLOW);

   if (rotated_)
     return;

   if (!PathExists(file_path_)) {
     rotated_ = true;
   } else {
     // TODO(yoshiki): Use stat_wrapper_t and File::Stat after libchrome uprev.
     struct stat file_stat;
     bool inode_changed = ((stat(file_path_.value().c_str(), &file_stat) == 0) &&
                           (file_inode_ != file_stat.st_ino));

     if (inode_changed)
       rotated_ = true;
   }

   if (rotated_) {
     for (Observer& obs : observers_)
       obs.OnFileChanged(this);
   }
 }

 }  // namespace croslog
	// Copyright 2020 The Chromium OS 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 "croslog/log_line_reader.h"

	#include <algorithm>
	#include <string>
	#include <utility>

	#include <fcntl.h>
	#include <sys/mman.h>
	#include <sys/stat.h>
	#include <sys/types.h>

	#include "base/bind.h"
	#include "base/files/file.h"
	#include "base/files/file_util.h"
	#include "base/strings/string_util.h"

	#include "croslog/file_map_reader.h"

	namespace croslog {

	namespace {
	// Maximum length of line in bytes.
	static int64_t g_max_line_length = 1024 * 1024;
	} // namespace

	// static
	void LogLineReader::SetMaxLineLengthForTest(int64_t max_line_length) {
	CHECK_LE(max_line_length, FileMapReader::GetChunkSizeInBytes());
	CHECK_GE(max_line_length, 0);
	g_max_line_length = max_line_length;
	}

	LogLineReader::LogLineReader(Backend backend_mode)
	: backend_mode_(backend_mode) {
	// Checks the assumption of this logic.
	DCHECK_GE(FileMapReader::GetChunkSizeInBytes(), g_max_line_length);
	}

	LogLineReader::~LogLineReader() {
	if (file_change_watcher_)
	file_change_watcher_->RemoveWatch(file_path_);
	}

	void LogLineReader::OpenFile(const base::FilePath& file_path) {
	CHECK(backend_mode_ == Backend::FILE \|\|
	backend_mode_ == Backend::FILE_FOLLOW);

	// Ensure the values are not initialized.
	CHECK(file_path_.empty());

	file_ = base::File(file_path, base::File::FLAG_OPEN \| base::File::FLAG_READ);
	if (!file_.IsValid()) {
	LOG(ERROR) << "Could not open " << file_path;
	return;
	}
	file_path_ = file_path;
	pos_ = 0;

	// TODO(yoshiki): Use stat_wrapper_t and File::FStat after libchrome uprev.
	struct stat file_stat;
	if (fstat(file_.GetPlatformFile(), &file_stat) == 0)
	file_inode_ = file_stat.st_ino;
	DCHECK_NE(0, file_inode_);

	if (backend_mode_ == Backend::FILE_FOLLOW) {
	// Race may happen when the file rotates just after file opens.
	// TODO(yoshiki): detect the race. Maybe we can use /proc/self/fd/$fd.
	file_change_watcher_ = FileChangeWatcher::GetInstance();
	bool ret = file_change_watcher_->AddWatch(file_path_, this);
	if (!ret) {
	LOG(ERROR) << "Failed to install FileChangeWatcher for " << file_path_
	<< ".";
	file_change_watcher_ = nullptr;
	}
	}

	reader_ = FileMapReader::CreateReader(file_.Duplicate());
	}

	void LogLineReader::OpenMemoryBufferForTest(const char* buffer, size_t size) {
	CHECK(backend_mode_ == Backend::MEMORY_FOR_TEST);
	reader_ = FileMapReader::CreateFileMapReaderDelegateImplMemoryReaderForTest(
	(const uint8_t*)buffer, size);
	}

	void LogLineReader::SetPositionLast() {
	// At first, sets the position to EOF.
	pos_ = reader_->GetFileSize();
	DCHECK_LE(0, pos_);

	// Calculates the maximum traversable range in the file and allocate a buffer.
	int64_t pos_traversal_start = std::max(pos_ - g_max_line_length, INT64_C(0));
	int64_t traversal_length = std::min(g_max_line_length, pos_);

	// Allocates a buffer of the segment from \|pos_traversal_start\| to EOF.
	auto buffer = reader_->MapBuffer(pos_traversal_start, traversal_length);
	CHECK(buffer->valid()) << "Mmap failed. Maybe the file has been truncated.";

	// Traverses in reverse order to find the last LF.
	while (pos_ > pos_traversal_start && buffer->GetChar(pos_ - 1) != '\n')
	pos_--;

	if (pos_ != 0 && pos_ <= pos_traversal_start) {
	LOG(ERROR) << "The last line is too long to handle (more than: "
	<< g_max_line_length
	<< "bytes). Lines around here may be broken.";
	// Sets the position to the last as a sloppy solution.
	pos_ = reader_->GetFileSize();
	}
	}

	// Ensure the file path is initialized.
	void LogLineReader::ReloadRotatedFile() {
	CHECK(backend_mode_ == Backend::FILE_FOLLOW);

	DCHECK(rotated_);
	DCHECK(PathExists(file_path_));

	rotated_ = false;

	CHECK(file_change_watcher_);
	file_change_watcher_->RemoveWatch(file_path_);

	base::FilePath file_path = file_path_;
	file_path_.clear();
	reader_.reset();
	file_inode_ = 0;
	pos_ = 0;

	OpenFile(file_path);
	if (!file_.IsValid()) {
	LOG(FATAL) << "File looks rotated, but new file can't be opened.";
	}
	reader_ = FileMapReader::CreateReader(file_.Duplicate());
	}

	base::Optional<std::string> LogLineReader::Forward() {
	DCHECK_LE(0, pos_);

	// Checks the current position is at the beginning of the line.
	if (pos_ != 0) {
	auto buffer = reader_->MapBuffer(pos_ - 1, 1);
	CHECK(buffer->valid()) << "Mmap failed. Maybe the file has been truncated"
	<< " and the current read position got invalid.";

	if (buffer->GetChar(pos_ - 1) != '\n') {
	LOG(WARNING) << "The line is odd. The line is too long or the file is"
	<< " unexpectedly changed.";
	}
	}

	// Calculate the maximum traversable size to allocate.
	int64_t traversal_length =
	std::min(g_max_line_length, reader_->GetFileSize() - pos_);
	int64_t pos_traversal_end = pos_ + traversal_length;

	// Allocates a buffer of the segment from \|pos_\| to \|pos_traversal_end\|.
	auto buffer = reader_->MapBuffer(pos_, traversal_length);
	CHECK(buffer->valid()) << "Mmap failed. Maybe the file has been truncated"
	<< " and the current read position got invalid.";

	// Finds the next LF (end of line).
	int64_t pos_line_end = pos_;

	while (pos_line_end < pos_traversal_end &&
	buffer->GetChar(pos_line_end) != '\n') {
	pos_line_end++;
	}

	if (pos_line_end == reader_->GetFileSize()) {
	// Reaches EOF without '\n'.
	int64_t unread_length = reader_->GetFileSize() - pos_;

	if (rotated_ && unread_length == 0 && PathExists(file_path_)) {
	// Free the mapped buffer so that another buffer map is allowed.
	buffer.reset();

	ReloadRotatedFile();
	return Forward();
	}

	// If next file doesn't exist, leave the remaining string.
	// If next file exists, read the remaining string.
	if (!rotated_)
	return base::nullopt;

	pos_line_end = reader_->GetFileSize();
	} else if (pos_line_end == (pos_ + g_max_line_length)) {
	LOG(ERROR) << "A line is too long to handle (more than "
	<< g_max_line_length
	<< "bytes). Lines around here may be broken.";
	}

	// Updates the current position.
	int64_t pos_line_start = pos_;
	int64_t line_length = pos_line_end - pos_;
	pos_ = pos_line_end;

	if (pos_ < reader_->GetFileSize()) {
	// Unless the line is too long, proceed the LF.
	if (buffer->GetChar(pos_) == '\n')
	pos_ += 1;
	}

	return GetString(std::move(buffer), pos_line_start, line_length);
	}

	base::Optional<std::string> LogLineReader::Backward() {
	DCHECK_LE(0, pos_);
	if (pos_ == 0)
	return base::nullopt;

	// Calculates the maximum traversable range in the file and allocate a buffer.
	int64_t pos_traversal_start = std::max(pos_ - g_max_line_length, INT64_C(0));
	int64_t traversal_length = pos_ - pos_traversal_start;
	DCHECK_GE(traversal_length, 0);

	// Allocates a buffer of the segment from \|pos_traversal_start\| to \|pos_\|.
	auto buffer = reader_->MapBuffer(pos_traversal_start, traversal_length);
	CHECK(buffer->valid()) << "Mmap failed. Maybe the file has been truncated"
	<< " and the current read position got invalid.";

	// Ensures the current position is the beginning of the previous line.
	if (buffer->GetChar(pos_ - 1) != '\n') {
	LOG(WARNING) << "The line is too long or the file is unexpectedly changed."
	<< " The lines read may be broken.";
	}

	// Finds the next LF (at the beginning of the line).
	int64_t last_start = pos_ - 1;
	while (last_start > pos_traversal_start &&
	buffer->GetChar(last_start - 1) != '\n') {
	last_start--;
	}

	// Ensures the next LF is found.
	if (last_start != 0 && last_start <= pos_traversal_start) {
	LOG(ERROR) << "A line is too long to handle (more than "
	<< g_max_line_length
	<< "bytes). Lines around here may be broken.";
	}

	// Updates the current position.
	int64_t line_length = pos_ - last_start - 1;
	pos_ = last_start;

	return GetString(std::move(buffer), last_start, line_length);
	}

	void LogLineReader::AddObserver(Observer* obs) {
	observers_.AddObserver(obs);
	}

	void LogLineReader::RemoveObserver(Observer* obs) {
	observers_.RemoveObserver(obs);
	}

	std::string LogLineReader::GetString(
	std::unique_ptr<FileMapReader::MappedBuffer> mapped_buffer,
	uint64_t offset,
	uint64_t length) const {
	std::pair<const uint8_t*, size_t> buffer =
	mapped_buffer->GetBuffer(offset, length);

	return std::string(reinterpret_cast<const char*>(buffer.first),
	buffer.second);
	}

	void LogLineReader::OnFileContentMaybeChanged() {
	CHECK(backend_mode_ == Backend::FILE_FOLLOW);
	CHECK(file_.IsValid());

	// We didn't consider the case of content change without size change. It
	// shouldn't happen with normal log files.

	// Previous file size at (or shortly before) the previous mmap.
	const int64_t previous_file_size = reader_->GetFileSize();
	// Current file size read from the file system.
	const int64_t current_file_size = file_.GetLength();

	if (previous_file_size != current_file_size) {
	reader_->ApplyFileSizeExpansion();
	for (Observer& obs : observers_)
	obs.OnFileChanged(this);
	}
	}

	void LogLineReader::OnFileNameMaybeChanged() {
	CHECK(backend_mode_ == Backend::FILE_FOLLOW);

	if (rotated_)
	return;

	if (!PathExists(file_path_)) {
	rotated_ = true;
	} else {
	// TODO(yoshiki): Use stat_wrapper_t and File::Stat after libchrome uprev.
	struct stat file_stat;
	bool inode_changed = ((stat(file_path_.value().c_str(), &file_stat) == 0) &&
	(file_inode_ != file_stat.st_ino));

	if (inode_changed)
	rotated_ = true;
	}

	if (rotated_) {
	for (Observer& obs : observers_)
	obs.OnFileChanged(this);
	}
	}

	} // namespace croslog