polardbxengine/storage/innobase/log/log0test.cc

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/**************************************************/ /**
 @file log/log0test.cc

 Tools used to test redo log in gtests (log0log-t.cc).

 *******************************************************/

#ifndef UNIV_HOTBACKUP

#include "log0log.h"

/** Maximum size of payload put inside each MLOG_TEST record. */
static constexpr size_t MLOG_TEST_PAYLOAD_MAX_LEN = 50;

/** Space id used for pages modified during tests of redo log. */
static constexpr size_t MLOG_TEST_PAGE_SPACE_ID = 1;

/** Represents currently running test of redo log, nullptr otherwise. */
std::unique_ptr<Log_test> log_test;

lsn_t Log_test::oldest_modification_approx() const {
  std::lock_guard<std::mutex> lock{m_mutex};

  return (m_buf.empty() ? 0 : m_buf.begin()->first);
}

void Log_test::add_dirty_page(const Page &page) {
#ifndef UNIV_HOTBACKUP
  ut_a(log_lsn_validate(page.oldest_modification));
  ut_a(log_lsn_validate(page.newest_modification));
#endif /* !UNIV_HOTBACKUP */

  std::lock_guard<std::mutex> lock{m_mutex};

  m_buf.insert(std::make_pair(page.oldest_modification, page));
}

void Log_test::fsync_written_pages() {
  std::lock_guard<std::mutex> lock{m_mutex};

  for (auto written : m_written) {
    m_flushed[written.first] = written.second;
  }

  m_written.clear();
}

void Log_test::purge(lsn_t max_dirty_page_age) {
  std::lock_guard<std::mutex> purge_lock{m_purge_mutex};

  std::unique_lock<std::mutex> lock{m_mutex};

  if (m_buf.empty()) {
    return;
  }

  const lsn_t max_lsn = m_buf.rbegin()->first;

  while (!m_buf.empty() &&
         max_lsn - m_buf.begin()->first > max_dirty_page_age) {
    auto it = m_buf.begin();

    const auto &page = it->second;

    /* Fragment below would make it more similar to real env.
    However there is some issue now. */
#if 0
		/* We need to avoid deadlock when resizing log
		buffer in background ... (because of m_mutex). */
		if (page.newest_modification > log_sys->write_lsn.load()) {

			lock.unlock();

			log_write_up_to(
				*log_sys,
				page.newest_modification,
				true);

			lock.lock();
			continue;
		}
#endif

    m_written[page.key] = page;

    m_buf.erase(it);
  }
}

byte *Log_test::create_mlog_rec(byte *rec, Key key, Value value) {
  const size_t payload = ut_rnd_interval(0, MLOG_TEST_PAYLOAD_MAX_LEN);
  return (create_mlog_rec(rec, key, value, payload));
}

byte *Log_test::create_mlog_rec(byte *rec, Key key, Value value,
                                size_t payload) {
  const space_id_t space_id = MLOG_TEST_PAGE_SPACE_ID;
  const page_no_t page_no = key;

  uchar *ptr;

  ptr = rec;

  mach_write_to_1(ptr, MLOG_TEST);
  ptr++;

  ptr += mach_write_compressed(ptr, space_id);

  ptr += mach_write_compressed(ptr, page_no);

  mach_write_to_8(ptr, key);
  ptr += 8;

  mach_write_to_8(ptr, value);
  ptr += 8;

  mach_write_to_2(ptr, payload);
  ptr += 2;

  std::memset(ptr, 0x00, payload);
  ptr += payload;

  /* Place for oldest_modification */
  mach_write_to_8(ptr, 0);
  ptr += 8;

  /* Place for newest_modification */
  mach_write_to_8(ptr, 0);
  ptr += 8;

  return (ptr);
}

byte *Log_test::parse_mlog_rec(byte *begin, byte *end, Key &key, Value &value,
                               lsn_t &start_lsn, lsn_t &end_lsn) {
  if (begin + 2 * 8 + 2 > end) {
    return (nullptr);
  }

  key = static_cast<Key>(mach_read_from_8(begin));
  begin += 8;

  value = static_cast<Value>(mach_read_from_8(begin));
  begin += 8;

  const size_t payload = mach_read_from_2(begin);
  begin += 2;

  if (begin + payload + 2 * 8 > end) {
    return (nullptr);
  }

  begin += payload;

  start_lsn = mach_read_from_8(begin);
  begin += 8;

  end_lsn = mach_read_from_8(begin);
  begin += 8;

  return (begin);
}

byte *Log_test::parse_mlog_rec(byte *begin, byte *end) {
  Key key;
  Value value;
  lsn_t start_lsn, end_lsn;

  byte *ptr = parse_mlog_rec(begin, end, key, value, start_lsn, end_lsn);

  if (ptr == nullptr) {
    return (nullptr);
  }

  if (value == MLOG_TEST_VALUE) {
    recovered_reset(key, start_lsn, end_lsn);

    recovered_add(key, value, start_lsn, end_lsn);

  } else if (value == 0) {
    recovered_reset(key, start_lsn, end_lsn);

  } else {
    recovered_add(key, value, start_lsn, end_lsn);
  }

  return (ptr);
}

void Log_test::recovered_reset(Key key, lsn_t oldest_modification,
                               lsn_t newest_modification) {
  Page page;
  page.key = key;
  page.value = 0;
  page.oldest_modification = oldest_modification;
  page.newest_modification = newest_modification;

  m_recovered[key] = page;
}

void Log_test::recovered_add(Key key, Value value, lsn_t oldest_modification,
                             lsn_t newest_modification) {
  auto it = m_recovered.find(key);
  ut_a(it != m_recovered.end());

  ut_a(it->second.oldest_modification == oldest_modification);
  ut_a(it->second.newest_modification == newest_modification);

  it->second.value += value;
  ut_a(it->second.value <= MLOG_TEST_VALUE);
}

const Log_test::Pages &Log_test::flushed() const { return (m_flushed); }

const Log_test::Pages &Log_test::recovered() const { return (m_recovered); }

void Log_test::sync_point(const std::string &sync_point_name) {
  auto it = m_sync_points.find(sync_point_name);

  if (it == m_sync_points.end()) {
    return;
  }

  it->second->sync();
}

void Log_test::register_sync_point_handler(
    const std::string &sync_point_name,
    std::unique_ptr<Sync_point> &&sync_point_handler) {
  m_sync_points[sync_point_name] = std::move(sync_point_handler);
}

bool Log_test::enabled(Options option) const {
  return ((m_options_enabled & uint64_t(option)) != 0);
}

void Log_test::set_enabled(Options option, bool enabled) {
  if (enabled) {
    m_options_enabled |= uint64_t(option);
  } else {
    m_options_enabled &= ~uint64_t(option);
  }
}

int Log_test::flush_every() const { return (m_flush_every); }

void Log_test::set_flush_every(int flush_every) { m_flush_every = flush_every; }

int Log_test::verbosity() const { return (m_verbosity); }

void Log_test::set_verbosity(int level) {
  ut_a(level >= 0);
  m_verbosity = level;
}

#endif /* !UNIV_HOTBACKUP */