croslog/boot_records.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/boot_records.h"

 #include <base/files/file_path.h>
 #include <base/files/file_util.h>
 #include <base/strings/string_number_conversions.h>

 #include "croslog/log_line_reader.h"
 #include "croslog/log_parser_syslog.h"

 namespace croslog {

 namespace {

 // The maximum length of the boot log. The log must be less than 1000 lines,
 // since it is trancated to 500 lines in log-bootid-on-boot.conf.
 constexpr size_t kBootEntryMaxLen = 1000;

 std::vector<BootRecords::BootEntry> ReadBootLogs(base::FilePath file_path) {
   LogLineReader reader(LogLineReader::Backend::FILE);

   std::vector<BootRecords::BootEntry> boot_log_entries;
   if (!base::PathExists(file_path))
     return boot_log_entries;

   LogParserSyslog parser;
   reader.OpenFile(std::move(file_path));

   while (true) {
     base::Optional<std::string> log = reader.Forward();
     if (!log.has_value()) {
       // EOF: finishes the read.
       break;
     }
     MaybeLogEntry e = parser.Parse(std::move(*log));
     if (!e.has_value()) {
       // Parse error: continuing the next line.
       continue;
     }
     DCHECK(BootRecords::IsValidBootId(e->message()));
     boot_log_entries.emplace_back(e->time(), e->message());
   }
   return boot_log_entries;
 }

 std::vector<BootRecords::BootRange> ConvertBootEntriesToRanges(
     const std::vector<BootRecords::BootEntry>& boot_log_entries) {
   std::vector<BootRecords::BootRange> boot_log_ranges;

   for (int i = 0; i < boot_log_entries.size(); i++) {
     const auto& boot_entry = boot_log_entries[i];
     base::Time next_boot_time = (i < (boot_log_entries.size() - 1))
                                     ? boot_log_entries[i + 1].boot_time()
                                     : base::Time::Max();

     // Boot times should be in an increasing order.
     DCHECK_LT(boot_entry.boot_time(), next_boot_time);
     boot_log_ranges.emplace_back(boot_entry.boot_time(), next_boot_time,
                                  boot_entry.boot_id());
   }

   return boot_log_ranges;
 }

 std::vector<BootRecords::BootRange> ReadBootRecords(base::FilePath file_path) {
   return ConvertBootEntriesToRanges(ReadBootLogs(file_path));
 }

 }  // anonymous namespace

 // ============================================================================
 // BootRecords::BootEntry implementation:

 BootRecords::BootEntry::BootEntry(base::Time boot_time, std::string boot_id)
     : boot_time_(boot_time), boot_id_(std::move(boot_id)) {}

 // ============================================================================
 // BootRecords::BootRange implementation:

 BootRecords::BootRange::BootRange(base::Time boot_time,
                                   base::Time next_boot_time,
                                   std::string boot_id)
     : boot_time_(boot_time),
       next_boot_time_(next_boot_time),
       boot_id_(std::move(boot_id)) {}

 bool BootRecords::BootRange::Contains(base::Time time) const {
   return boot_time_ <= time && time < next_boot_time_;
 }

 bool operator==(BootRecords::BootRange const& a,
                 BootRecords::BootRange const& b) {
   return a.boot_id() == b.boot_id() && a.boot_time() == b.boot_time() &&
          a.next_boot_time() == b.next_boot_time();
 }

 // ============================================================================
 // BootRecords implementation:

 // static
 bool BootRecords::IsValidBootId(const std::string& boot_id) {
   if (boot_id.size() != 32)
     return false;

   for (int i = 0; i < 32; i++) {
     if (!(boot_id[i] >= '0' && boot_id[i] <= '9') &&
         !(boot_id[i] >= 'a' && boot_id[i] <= 'f')) {
       return false;
     }
   }
   return true;
 }

 BootRecords::BootRecords()
     : BootRecords(base::FilePath("/var/log/boot_id.log")) {}

 BootRecords::BootRecords(base::FilePath file_path)
     : boot_ranges_(ReadBootRecords(file_path)) {
   DCHECK_GT(kBootEntryMaxLen, boot_ranges_.size());
 }

 BootRecords::BootRecords(std::vector<BootRecords::BootEntry> entries)
     : boot_ranges_(ConvertBootEntriesToRanges(entries)) {}

 base::Optional<BootRecords::BootRange> BootRecords::GetBootRange(
     const std::string& boot_str) const {
   int boot_offset = 0;
   if (boot_str.empty() || base::StringToInt(boot_str, &boot_offset)) {
     if (boot_str.empty())
       boot_offset = 0;

     // The specified string may be a boot number.
     DCHECK_GT(kBootEntryMaxLen, boot_ranges_.size());

     int boot_offset_nth;
     if (boot_offset <= 0) {
       boot_offset_nth = boot_ranges_.size() + boot_offset - 1;
       if (boot_offset_nth < 0) {
         // Invalid offset.
         return base::nullopt;
       }
     } else {
       // Positive offset is not supported.
       // TODO(yoshiki): support positive offset values.
       return base::nullopt;
     }

     return boot_ranges_[boot_offset_nth];
   }

   if (IsValidBootId(boot_str)) {
     // The specified string may be a boot ID.
     for (int i = 0; i < boot_ranges_.size(); i++) {
       const auto& boot_entry = boot_ranges_[i];
       if (boot_entry.boot_id() != boot_str)
         continue;
       return boot_entry;
     }
   }

   // Invalid boot ID format, or no corresponding boot in the entries.
   return base::nullopt;
 }

 }  // 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/boot_records.h"

	#include <base/files/file_path.h>
	#include <base/files/file_util.h>
	#include <base/strings/string_number_conversions.h>

	#include "croslog/log_line_reader.h"
	#include "croslog/log_parser_syslog.h"

	namespace croslog {

	namespace {

	// The maximum length of the boot log. The log must be less than 1000 lines,
	// since it is trancated to 500 lines in log-bootid-on-boot.conf.
	constexpr size_t kBootEntryMaxLen = 1000;

	std::vector<BootRecords::BootEntry> ReadBootLogs(base::FilePath file_path) {
	LogLineReader reader(LogLineReader::Backend::FILE);

	std::vector<BootRecords::BootEntry> boot_log_entries;
	if (!base::PathExists(file_path))
	return boot_log_entries;

	LogParserSyslog parser;
	reader.OpenFile(std::move(file_path));

	while (true) {
	base::Optional<std::string> log = reader.Forward();
	if (!log.has_value()) {
	// EOF: finishes the read.
	break;
	}
	MaybeLogEntry e = parser.Parse(std::move(*log));
	if (!e.has_value()) {
	// Parse error: continuing the next line.
	continue;
	}
	DCHECK(BootRecords::IsValidBootId(e->message()));
	boot_log_entries.emplace_back(e->time(), e->message());
	}
	return boot_log_entries;
	}

	std::vector<BootRecords::BootRange> ConvertBootEntriesToRanges(
	const std::vector<BootRecords::BootEntry>& boot_log_entries) {
	std::vector<BootRecords::BootRange> boot_log_ranges;

	for (int i = 0; i < boot_log_entries.size(); i++) {
	const auto& boot_entry = boot_log_entries[i];
	base::Time next_boot_time = (i < (boot_log_entries.size() - 1))
	? boot_log_entries[i + 1].boot_time()
	: base::Time::Max();

	// Boot times should be in an increasing order.
	DCHECK_LT(boot_entry.boot_time(), next_boot_time);
	boot_log_ranges.emplace_back(boot_entry.boot_time(), next_boot_time,
	boot_entry.boot_id());
	}

	return boot_log_ranges;
	}

	std::vector<BootRecords::BootRange> ReadBootRecords(base::FilePath file_path) {
	return ConvertBootEntriesToRanges(ReadBootLogs(file_path));
	}

	} // anonymous namespace

	// ============================================================================
	// BootRecords::BootEntry implementation:

	BootRecords::BootEntry::BootEntry(base::Time boot_time, std::string boot_id)
	: boot_time_(boot_time), boot_id_(std::move(boot_id)) {}

	// ============================================================================
	// BootRecords::BootRange implementation:

	BootRecords::BootRange::BootRange(base::Time boot_time,
	base::Time next_boot_time,
	std::string boot_id)
	: boot_time_(boot_time),
	next_boot_time_(next_boot_time),
	boot_id_(std::move(boot_id)) {}

	bool BootRecords::BootRange::Contains(base::Time time) const {
	return boot_time_ <= time && time < next_boot_time_;
	}

	bool operator==(BootRecords::BootRange const& a,
	BootRecords::BootRange const& b) {
	return a.boot_id() == b.boot_id() && a.boot_time() == b.boot_time() &&
	a.next_boot_time() == b.next_boot_time();
	}

	// ============================================================================
	// BootRecords implementation:

	// static
	bool BootRecords::IsValidBootId(const std::string& boot_id) {
	if (boot_id.size() != 32)
	return false;

	for (int i = 0; i < 32; i++) {
	if (!(boot_id[i] >= '0' && boot_id[i] <= '9') &&
	!(boot_id[i] >= 'a' && boot_id[i] <= 'f')) {
	return false;
	}
	}
	return true;
	}

	BootRecords::BootRecords()
	: BootRecords(base::FilePath("/var/log/boot_id.log")) {}

	BootRecords::BootRecords(base::FilePath file_path)
	: boot_ranges_(ReadBootRecords(file_path)) {
	DCHECK_GT(kBootEntryMaxLen, boot_ranges_.size());
	}

	BootRecords::BootRecords(std::vector<BootRecords::BootEntry> entries)
	: boot_ranges_(ConvertBootEntriesToRanges(entries)) {}

	base::Optional<BootRecords::BootRange> BootRecords::GetBootRange(
	const std::string& boot_str) const {
	int boot_offset = 0;
	if (boot_str.empty() \|\| base::StringToInt(boot_str, &boot_offset)) {
	if (boot_str.empty())
	boot_offset = 0;

	// The specified string may be a boot number.
	DCHECK_GT(kBootEntryMaxLen, boot_ranges_.size());

	int boot_offset_nth;
	if (boot_offset <= 0) {
	boot_offset_nth = boot_ranges_.size() + boot_offset - 1;
	if (boot_offset_nth < 0) {
	// Invalid offset.
	return base::nullopt;
	}
	} else {
	// Positive offset is not supported.
	// TODO(yoshiki): support positive offset values.
	return base::nullopt;
	}

	return boot_ranges_[boot_offset_nth];
	}

	if (IsValidBootId(boot_str)) {
	// The specified string may be a boot ID.
	for (int i = 0; i < boot_ranges_.size(); i++) {
	const auto& boot_entry = boot_ranges_[i];
	if (boot_entry.boot_id() != boot_str)
	continue;
	return boot_entry;
	}
	}

	// Invalid boot ID format, or no corresponding boot in the entries.
	return base::nullopt;
	}

	} // namespace croslog