summaryrefslogtreecommitdiff
path: root/storage/innobase/buf/buf0buf.cc
blob: 04d48bbc217c5328423e925d746bf3147b167730 (plain)
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/*****************************************************************************

Copyright (c) 1995, 2018, Oracle and/or its affiliates. All Rights Reserved.
Copyright (c) 2008, Google Inc.
Copyright (c) 2013, 2020, MariaDB Corporation.

Portions of this file contain modifications contributed and copyrighted by
Google, Inc. Those modifications are gratefully acknowledged and are described
briefly in the InnoDB documentation. The contributions by Google are
incorporated with their permission, and subject to the conditions contained in
the file COPYING.Google.

This program is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free Software
Foundation; version 2 of the License.

This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.

You should have received a copy of the GNU General Public License along with
this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1335 USA

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

/**************************************************//**
@file buf/buf0buf.cc
The database buffer buf_pool

Created 11/5/1995 Heikki Tuuri
*******************************************************/

#include "assume_aligned.h"
#include "mtr0types.h"
#include "mach0data.h"
#include "buf0buf.h"
#include "buf0checksum.h"
#include "ut0crc32.h"
#include <string.h>

#ifndef UNIV_INNOCHECKSUM
#include "my_cpu.h"
#include "mem0mem.h"
#include "btr0btr.h"
#include "fil0fil.h"
#include "fil0crypt.h"
#include "buf0buddy.h"
#include "buf0dblwr.h"
#include "lock0lock.h"
#include "btr0sea.h"
#include "ibuf0ibuf.h"
#include "trx0undo.h"
#include "trx0purge.h"
#include "log0log.h"
#include "dict0stats_bg.h"
#include "srv0srv.h"
#include "srv0start.h"
#include "dict0dict.h"
#include "log0recv.h"
#include "srv0mon.h"
#include "log0crypt.h"
#include "fil0pagecompress.h"
#endif /* !UNIV_INNOCHECKSUM */
#include "page0zip.h"
#include "sync0sync.h"
#include "buf0dump.h"
#include <map>
#include <sstream>

using st_::span;

#ifdef HAVE_LIBNUMA
#include <numa.h>
#include <numaif.h>
struct set_numa_interleave_t
{
	set_numa_interleave_t()
	{
		if (srv_numa_interleave) {

			struct bitmask *numa_mems_allowed = numa_get_mems_allowed();
			ib::info() << "Setting NUMA memory policy to"
				" MPOL_INTERLEAVE";
			if (set_mempolicy(MPOL_INTERLEAVE,
					  numa_mems_allowed->maskp,
					  numa_mems_allowed->size) != 0) {

				ib::warn() << "Failed to set NUMA memory"
					" policy to MPOL_INTERLEAVE: "
					<< strerror(errno);
			}
			numa_bitmask_free(numa_mems_allowed);
		}
	}

	~set_numa_interleave_t()
	{
		if (srv_numa_interleave) {

			ib::info() << "Setting NUMA memory policy to"
				" MPOL_DEFAULT";
			if (set_mempolicy(MPOL_DEFAULT, NULL, 0) != 0) {
				ib::warn() << "Failed to set NUMA memory"
					" policy to MPOL_DEFAULT: "
					<< strerror(errno);
			}
		}
	}
};

#define NUMA_MEMPOLICY_INTERLEAVE_IN_SCOPE set_numa_interleave_t scoped_numa
#else
#define NUMA_MEMPOLICY_INTERLEAVE_IN_SCOPE
#endif /* HAVE_LIBNUMA */

/*
		IMPLEMENTATION OF THE BUFFER POOL
		=================================

		Buffer frames and blocks
		------------------------
Following the terminology of Gray and Reuter, we call the memory
blocks where file pages are loaded buffer frames. For each buffer
frame there is a control block, or shortly, a block, in the buffer
control array. The control info which does not need to be stored
in the file along with the file page, resides in the control block.

		Buffer pool struct
		------------------
The buffer buf_pool contains a single mutex which protects all the
control data structures of the buf_pool. The content of a buffer frame is
protected by a separate read-write lock in its control block, though.
These locks can be locked and unlocked without owning the buf_pool.mutex.
The OS events in the buf_pool struct can be waited for without owning the
buf_pool.mutex.

The buf_pool.mutex is a hot-spot in main memory, causing a lot of
memory bus traffic on multiprocessor systems when processors
alternately access the mutex. On our Pentium, the mutex is accessed
maybe every 10 microseconds. We gave up the solution to have mutexes
for each control block, for instance, because it seemed to be
complicated.

A solution to reduce mutex contention of the buf_pool.mutex is to
create a separate mutex for the page hash table. On Pentium,
accessing the hash table takes 2 microseconds, about half
of the total buf_pool.mutex hold time.

		Control blocks
		--------------

The control block contains, for instance, the bufferfix count
which is incremented when a thread wants a file page to be fixed
in a buffer frame. The bufferfix operation does not lock the
contents of the frame, however. For this purpose, the control
block contains a read-write lock.

The buffer frames have to be aligned so that the start memory
address of a frame is divisible by the universal page size, which
is a power of two.

The control blocks containing file pages are put to a hash table
according to the file address of the page.
We could speed up the access to an individual page by using
"pointer swizzling": we could replace the page references on
non-leaf index pages by direct pointers to the page, if it exists
in the buf_pool. We could make a separate hash table where we could
chain all the page references in non-leaf pages residing in the buf_pool,
using the page reference as the hash key,
and at the time of reading of a page update the pointers accordingly.
Drawbacks of this solution are added complexity and,
possibly, extra space required on non-leaf pages for memory pointers.
A simpler solution is just to speed up the hash table mechanism
in the database, using tables whose size is a power of 2.

		Lists of blocks
		---------------

There are several lists of control blocks.

The free list (buf_pool.free) contains blocks which are currently not
used.

The common LRU list contains all the blocks holding a file page
except those for which the bufferfix count is non-zero.
The pages are in the LRU list roughly in the order of the last
access to the page, so that the oldest pages are at the end of the
list. We also keep a pointer to near the end of the LRU list,
which we can use when we want to artificially age a page in the
buf_pool. This is used if we know that some page is not needed
again for some time: we insert the block right after the pointer,
causing it to be replaced sooner than would normally be the case.
Currently this aging mechanism is used for read-ahead mechanism
of pages, and it can also be used when there is a scan of a full
table which cannot fit in the memory. Putting the pages near the
end of the LRU list, we make sure that most of the buf_pool stays
in the main memory, undisturbed.

The unzip_LRU list contains a subset of the common LRU list.  The
blocks on the unzip_LRU list hold a compressed file page and the
corresponding uncompressed page frame.  A block is in unzip_LRU if and
only if the predicate block->page.belongs_to_unzip_LRU()
holds.  The blocks in unzip_LRU will be in same order as they are in
the common LRU list.  That is, each manipulation of the common LRU
list will result in the same manipulation of the unzip_LRU list.

The chain of modified blocks (buf_pool.flush_list) contains the blocks
holding persistent file pages that have been modified in the memory
but not written to disk yet. The block with the oldest modification
which has not yet been written to disk is at the end of the chain.
The access to this list is protected by buf_pool.flush_list_mutex.

The control blocks for uncompressed pages are accessible via
buf_block_t objects that are reachable via buf_pool.chunks[].
The control blocks (buf_page_t) of those ROW_FORMAT=COMPRESSED pages
that are not in buf_pool.flush_list and for which no uncompressed
page has been allocated in buf_pool are only accessible via
buf_pool.LRU.

The chains of free memory blocks (buf_pool.zip_free[]) are used by
the buddy allocator (buf0buddy.cc) to keep track of currently unused
memory blocks of size sizeof(buf_page_t)..srv_page_size / 2.  These
blocks are inside the srv_page_size-sized memory blocks of type
BUF_BLOCK_MEMORY that the buddy allocator requests from the buffer
pool.  The buddy allocator is solely used for allocating control
blocks for compressed pages (buf_page_t) and compressed page frames.

		Loading a file page
		-------------------

First, a victim block for replacement has to be found in the
buf_pool. It is taken from the free list or searched for from the
end of the LRU-list. An exclusive lock is reserved for the frame,
the io_fix field is set in the block fixing the block in buf_pool,
and the io-operation for loading the page is queued. The io-handler thread
releases the X-lock on the frame and resets the io_fix field
when the io operation completes.

A thread may request the above operation using the function
buf_page_get(). It may then continue to request a lock on the frame.
The lock is granted when the io-handler releases the x-lock.

		Read-ahead
		----------

The read-ahead mechanism is intended to be intelligent and
isolated from the semantically higher levels of the database
index management. From the higher level we only need the
information if a file page has a natural successor or
predecessor page. On the leaf level of a B-tree index,
these are the next and previous pages in the natural
order of the pages.

Let us first explain the read-ahead mechanism when the leafs
of a B-tree are scanned in an ascending or descending order.
When a read page is the first time referenced in the buf_pool,
the buffer manager checks if it is at the border of a so-called
linear read-ahead area. The tablespace is divided into these
areas of size 64 blocks, for example. So if the page is at the
border of such an area, the read-ahead mechanism checks if
all the other blocks in the area have been accessed in an
ascending or descending order. If this is the case, the system
looks at the natural successor or predecessor of the page,
checks if that is at the border of another area, and in this case
issues read-requests for all the pages in that area. Maybe
we could relax the condition that all the pages in the area
have to be accessed: if data is deleted from a table, there may
appear holes of unused pages in the area.

A different read-ahead mechanism is used when there appears
to be a random access pattern to a file.
If a new page is referenced in the buf_pool, and several pages
of its random access area (for instance, 32 consecutive pages
in a tablespace) have recently been referenced, we may predict
that the whole area may be needed in the near future, and issue
the read requests for the whole area.
*/

#ifndef UNIV_INNOCHECKSUM
void page_hash_latch::read_lock_wait()
{
  /* First, try busy spinning for a while. */
  for (auto spin= srv_n_spin_wait_rounds; spin--; )
  {
    ut_delay(srv_spin_wait_delay);
    if (read_trylock())
      return;
  }
  /* Fall back to yielding to other threads. */
  do
    os_thread_yield();
  while (!read_trylock());
}

void page_hash_latch::write_lock_wait()
{
  write_lock_wait_start();

  /* First, try busy spinning for a while. */
  for (auto spin= srv_n_spin_wait_rounds; spin--; )
  {
    if (write_lock_poll())
      return;
    ut_delay(srv_spin_wait_delay);
  }

  /* Fall back to yielding to other threads. */
  do
    os_thread_yield();
  while (!write_lock_poll());
}

/** Value in microseconds */
constexpr int WAIT_FOR_READ= 100;
constexpr int WAIT_FOR_WRITE= 100;
/** Number of attempts made to read in a page in the buffer pool */
constexpr ulint	BUF_PAGE_READ_MAX_RETRIES= 100;
/** The maximum portion of the buffer pool that can be used for the
read-ahead buffer.  (Divide buf_pool size by this amount) */
constexpr uint32_t BUF_READ_AHEAD_PORTION= 32;

/** The InnoDB buffer pool */
buf_pool_t buf_pool;
buf_pool_t::chunk_t::map *buf_pool_t::chunk_t::map_reg;
buf_pool_t::chunk_t::map *buf_pool_t::chunk_t::map_ref;

#ifdef UNIV_DEBUG
/** Disable resizing buffer pool to make assertion code not expensive. */
my_bool			buf_disable_resize_buffer_pool_debug = TRUE;

/** This is used to insert validation operations in execution
in the debug version */
static ulint buf_dbg_counter;
#endif /* UNIV_DEBUG */

/** Macro to determine whether the read of write counter is used depending
on the io_type */
#define MONITOR_RW_COUNTER(io_type, counter)		\
	((io_type == BUF_IO_READ)			\
	 ? (counter##_READ)				\
	 : (counter##_WRITTEN))


/** Decrypt a page for temporary tablespace.
@param[in,out]	tmp_frame	Temporary buffer
@param[in]	src_frame	Page to decrypt
@return true if temporary tablespace decrypted, false if not */
static bool buf_tmp_page_decrypt(byte* tmp_frame, byte* src_frame)
{
	if (buf_is_zeroes(span<const byte>(src_frame, srv_page_size))) {
		return true;
	}

	/* read space & lsn */
	uint header_len = FIL_PAGE_FILE_FLUSH_LSN_OR_KEY_VERSION;

	/* Copy FIL page header, it is not encrypted */
	memcpy(tmp_frame, src_frame, header_len);

	/* Calculate the offset where decryption starts */
	const byte* src = src_frame + header_len;
	byte* dst = tmp_frame + header_len;
	uint srclen = uint(srv_page_size)
		- (header_len + FIL_PAGE_FCRC32_CHECKSUM);
	ulint offset = mach_read_from_4(src_frame + FIL_PAGE_OFFSET);

	if (!log_tmp_block_decrypt(src, srclen, dst,
				   (offset * srv_page_size))) {
		return false;
	}

	static_assert(FIL_PAGE_FCRC32_CHECKSUM == 4, "alignment");
	memcpy_aligned<4>(tmp_frame + srv_page_size - FIL_PAGE_FCRC32_CHECKSUM,
			  src_frame + srv_page_size - FIL_PAGE_FCRC32_CHECKSUM,
			  FIL_PAGE_FCRC32_CHECKSUM);

	memcpy_aligned<OS_FILE_LOG_BLOCK_SIZE>(src_frame, tmp_frame,
					       srv_page_size);
	srv_stats.pages_decrypted.inc();
	srv_stats.n_temp_blocks_decrypted.inc();

	return true; /* page was decrypted */
}

/** Decrypt a page.
@param[in,out]	bpage	Page control block
@param[in]	node	data file
@return whether the operation was successful */
static bool buf_page_decrypt_after_read(buf_page_t *bpage,
                                        const fil_node_t &node)
{
	ut_ad(node.space->referenced());
	ut_ad(node.space->id == bpage->id().space());
	const auto flags = node.space->flags;

	byte* dst_frame = bpage->zip.data ? bpage->zip.data :
		((buf_block_t*) bpage)->frame;
	bool page_compressed = node.space->is_compressed()
		&& buf_page_is_compressed(dst_frame, flags);
	const page_id_t id(bpage->id());

	if (id.page_no() == 0) {
		/* File header pages are not encrypted/compressed */
		return (true);
	}

	if (node.space->purpose == FIL_TYPE_TEMPORARY
	    && innodb_encrypt_temporary_tables) {
		buf_tmp_buffer_t* slot = buf_pool.io_buf_reserve();
		ut_a(slot);
		slot->allocate();

		if (!buf_tmp_page_decrypt(slot->crypt_buf, dst_frame)) {
			slot->release();
			ib::error() << "Encrypted page " << id
				    << " in file " << node.name;
			return false;
		}

		slot->release();
		return true;
	}

	/* Page is encrypted if encryption information is found from
	tablespace and page contains used key_version. This is true
	also for pages first compressed and then encrypted. */

	buf_tmp_buffer_t* slot;
	uint key_version = buf_page_get_key_version(dst_frame, flags);

	if (page_compressed && !key_version) {
		/* the page we read is unencrypted */
		/* Find free slot from temporary memory array */
decompress:
		if (fil_space_t::full_crc32(flags)
		    && buf_page_is_corrupted(true, dst_frame, flags)) {
			return false;
		}

		slot = buf_pool.io_buf_reserve();
		ut_a(slot);
		slot->allocate();

decompress_with_slot:
		ut_d(fil_page_type_validate(node.space, dst_frame));

		ulint write_size = fil_page_decompress(
			slot->crypt_buf, dst_frame, flags);
		slot->release();
		ut_ad(!write_size
		      || fil_page_type_validate(node.space, dst_frame));
		ut_ad(node.space->referenced());
		return write_size != 0;
	}

	if (key_version && node.space->crypt_data) {
		/* Verify encryption checksum before we even try to
		decrypt. */
		if (!buf_page_verify_crypt_checksum(dst_frame, flags)) {
decrypt_failed:
			ib::error() << "Encrypted page " << id
				    << " in file " << node.name
				    << " looks corrupted; key_version="
				    << key_version;
			return false;
		}

		slot = buf_pool.io_buf_reserve();
		ut_a(slot);
		slot->allocate();
		ut_d(fil_page_type_validate(node.space, dst_frame));

		/* decrypt using crypt_buf to dst_frame */
		if (!fil_space_decrypt(node.space, slot->crypt_buf, dst_frame)) {
			slot->release();
			goto decrypt_failed;
		}

		ut_d(fil_page_type_validate(node.space, dst_frame));

		if ((fil_space_t::full_crc32(flags) && page_compressed)
		    || fil_page_get_type(dst_frame)
		    == FIL_PAGE_PAGE_COMPRESSED_ENCRYPTED) {
			goto decompress_with_slot;
		}

		slot->release();
	} else if (fil_page_get_type(dst_frame)
		   == FIL_PAGE_PAGE_COMPRESSED_ENCRYPTED) {
		goto decompress;
	}

	ut_ad(node.space->referenced());
	return true;
}
#endif /* !UNIV_INNOCHECKSUM */

/** Checks if the page is in crc32 checksum format.
@param[in]	read_buf		database page
@param[in]	checksum_field1		new checksum field
@param[in]	checksum_field2		old checksum field
@return true if the page is in crc32 checksum format. */
bool
buf_page_is_checksum_valid_crc32(
	const byte*			read_buf,
	ulint				checksum_field1,
	ulint				checksum_field2)
{
	const uint32_t	crc32 = buf_calc_page_crc32(read_buf);

#ifdef UNIV_INNOCHECKSUM
	if (log_file
	    && srv_checksum_algorithm == SRV_CHECKSUM_ALGORITHM_STRICT_CRC32) {
		fprintf(log_file, "page::%llu;"
			" crc32 calculated = %u;"
			" recorded checksum field1 = " ULINTPF " recorded"
			" checksum field2 =" ULINTPF "\n", cur_page_num,
			crc32, checksum_field1, checksum_field2);
	}
#endif /* UNIV_INNOCHECKSUM */

	if (checksum_field1 != checksum_field2) {
		return false;
	}

	return checksum_field1 == crc32;
}

/** Checks if the page is in innodb checksum format.
@param[in]	read_buf	database page
@param[in]	checksum_field1	new checksum field
@param[in]	checksum_field2	old checksum field
@return true if the page is in innodb checksum format. */
bool
buf_page_is_checksum_valid_innodb(
	const byte*			read_buf,
	ulint				checksum_field1,
	ulint				checksum_field2)
{
	/* There are 2 valid formulas for
	checksum_field2 (old checksum field) which algo=innodb could have
	written to the page:

	1. Very old versions of InnoDB only stored 8 byte lsn to the
	start and the end of the page.

	2. Newer InnoDB versions store the old formula checksum
	(buf_calc_page_old_checksum()). */

	ulint	old_checksum = buf_calc_page_old_checksum(read_buf);
	ulint	new_checksum = buf_calc_page_new_checksum(read_buf);

#ifdef UNIV_INNOCHECKSUM
	if (log_file
	    && srv_checksum_algorithm == SRV_CHECKSUM_ALGORITHM_INNODB) {
		fprintf(log_file, "page::%llu;"
			" old style: calculated ="
			" " ULINTPF "; recorded = " ULINTPF "\n",
			cur_page_num, old_checksum,
			checksum_field2);
		fprintf(log_file, "page::%llu;"
			" new style: calculated ="
			" " ULINTPF "; crc32 = %u; recorded = " ULINTPF "\n",
			cur_page_num, new_checksum,
			buf_calc_page_crc32(read_buf), checksum_field1);
	}

	if (log_file
	    && srv_checksum_algorithm == SRV_CHECKSUM_ALGORITHM_STRICT_INNODB) {
		fprintf(log_file, "page::%llu;"
			" old style: calculated ="
			" " ULINTPF "; recorded checksum = " ULINTPF "\n",
			cur_page_num, old_checksum,
			checksum_field2);
		fprintf(log_file, "page::%llu;"
			" new style: calculated ="
			" " ULINTPF "; recorded checksum  = " ULINTPF "\n",
			cur_page_num, new_checksum,
			checksum_field1);
	}
#endif /* UNIV_INNOCHECKSUM */


	if (checksum_field2 != mach_read_from_4(read_buf + FIL_PAGE_LSN)
	    && checksum_field2 != old_checksum) {
		DBUG_LOG("checksum",
			 "Page checksum crc32 not valid"
			 << " field1 " << checksum_field1
			 << " field2 " << checksum_field2
			 << " crc32 " << buf_calc_page_old_checksum(read_buf)
			 << " lsn " << mach_read_from_4(
				 read_buf + FIL_PAGE_LSN));
		return(false);
	}

	/* old field is fine, check the new field */

	/* InnoDB versions < 4.0.14 and < 4.1.1 stored the space id
	(always equal to 0), to FIL_PAGE_SPACE_OR_CHKSUM */

	if (checksum_field1 != 0 && checksum_field1 != new_checksum) {
		DBUG_LOG("checksum",
			 "Page checksum crc32 not valid"
			 << " field1 " << checksum_field1
			 << " field2 " << checksum_field2
			 << " crc32 " << buf_calc_page_new_checksum(read_buf)
			 << " lsn " << mach_read_from_4(
				 read_buf + FIL_PAGE_LSN));
		return(false);
	}

	return(true);
}

/** Checks if the page is in none checksum format.
@param[in]	read_buf	database page
@param[in]	checksum_field1	new checksum field
@param[in]	checksum_field2	old checksum field
@return true if the page is in none checksum format. */
bool
buf_page_is_checksum_valid_none(
	const byte*			read_buf,
	ulint				checksum_field1,
	ulint				checksum_field2)
{
#ifndef DBUG_OFF
	if (checksum_field1 != checksum_field2
	    && checksum_field1 != BUF_NO_CHECKSUM_MAGIC) {
		DBUG_LOG("checksum",
			 "Page checksum crc32 not valid"
			 << " field1 " << checksum_field1
			 << " field2 " << checksum_field2
			 << " crc32 " << BUF_NO_CHECKSUM_MAGIC
			 << " lsn " << mach_read_from_4(read_buf
							+ FIL_PAGE_LSN));
	}
#endif /* DBUG_OFF */

#ifdef UNIV_INNOCHECKSUM
	if (log_file
	    && srv_checksum_algorithm == SRV_CHECKSUM_ALGORITHM_STRICT_NONE) {
		fprintf(log_file,
			"page::%llu; none checksum: calculated"
			" = %lu; recorded checksum_field1 = " ULINTPF
			" recorded checksum_field2 = " ULINTPF "\n",
			cur_page_num, BUF_NO_CHECKSUM_MAGIC,
			checksum_field1, checksum_field2);
	}
#endif /* UNIV_INNOCHECKSUM */

	return(checksum_field1 == checksum_field2
	       && checksum_field1 == BUF_NO_CHECKSUM_MAGIC);
}

/** Checks whether the lsn present in the page is lesser than the
peek current lsn.
@param[in]	check_lsn	lsn to check
@param[in]	read_buf	page. */
static void buf_page_check_lsn(bool check_lsn, const byte* read_buf)
{
#ifndef UNIV_INNOCHECKSUM
	if (check_lsn && recv_lsn_checks_on) {
		const lsn_t current_lsn = log_sys.get_lsn();
		const lsn_t	page_lsn
			= mach_read_from_8(read_buf + FIL_PAGE_LSN);

		/* Since we are going to reset the page LSN during the import
		phase it makes no sense to spam the log with error messages. */
		if (current_lsn < page_lsn) {

			const uint32_t space_id = mach_read_from_4(
				read_buf + FIL_PAGE_SPACE_ID);
			const uint32_t page_no = mach_read_from_4(
				read_buf + FIL_PAGE_OFFSET);

			ib::error() << "Page " << page_id_t(space_id, page_no)
				<< " log sequence number " << page_lsn
				<< " is in the future! Current system"
				<< " log sequence number "
				<< current_lsn << ".";

			ib::error() << "Your database may be corrupt or"
				" you may have copied the InnoDB"
				" tablespace but not the InnoDB"
				" log files. "
				<< FORCE_RECOVERY_MSG;

		}
	}
#endif /* !UNIV_INNOCHECKSUM */
}


/** Check if a buffer is all zeroes.
@param[in]	buf	data to check
@return whether the buffer is all zeroes */
bool buf_is_zeroes(span<const byte> buf)
{
  ut_ad(buf.size() <= sizeof field_ref_zero);
  return memcmp(buf.data(), field_ref_zero, buf.size()) == 0;
}

/** Check if a page is corrupt.
@param[in]	check_lsn	whether the LSN should be checked
@param[in]	read_buf	database page
@param[in]	zip_size	ROW_FORMAT=COMPRESSED page size, or 0
@param[in]	space		tablespace
@return whether the page is corrupted */
bool
buf_page_is_corrupted(
	bool			check_lsn,
	const byte*		read_buf,
	ulint			fsp_flags)
{
#ifndef UNIV_INNOCHECKSUM
	DBUG_EXECUTE_IF("buf_page_import_corrupt_failure", return(true); );
#endif
	if (fil_space_t::full_crc32(fsp_flags)) {
		bool compressed = false, corrupted = false;
		const uint size = buf_page_full_crc32_size(
			read_buf, &compressed, &corrupted);
		if (corrupted) {
			return true;
		}
		const byte* end = read_buf + (size - FIL_PAGE_FCRC32_CHECKSUM);
		uint crc32 = mach_read_from_4(end);

		if (!crc32 && size == srv_page_size
		    && buf_is_zeroes(span<const byte>(read_buf, size))) {
			return false;
		}

		DBUG_EXECUTE_IF(
			"page_intermittent_checksum_mismatch", {
			static int page_counter;
			if (page_counter++ == 2) {
				crc32++;
			}
		});

		if (crc32 != ut_crc32(read_buf,
				      size - FIL_PAGE_FCRC32_CHECKSUM)) {
			return true;
		}
		static_assert(FIL_PAGE_FCRC32_KEY_VERSION == 0, "alignment");
		static_assert(FIL_PAGE_LSN % 4 == 0, "alignment");
		static_assert(FIL_PAGE_FCRC32_END_LSN % 4 == 0, "alignment");
		if (!compressed
		    && !mach_read_from_4(FIL_PAGE_FCRC32_KEY_VERSION
					 + read_buf)
		    && memcmp_aligned<4>(read_buf + (FIL_PAGE_LSN + 4),
					 end - (FIL_PAGE_FCRC32_END_LSN
						- FIL_PAGE_FCRC32_CHECKSUM),
					 4)) {
			return true;
		}

		buf_page_check_lsn(check_lsn, read_buf);
		return false;
	}

	size_t		checksum_field1 = 0;
	size_t		checksum_field2 = 0;
	uint32_t	crc32 = 0;
	bool		crc32_inited = false;
	bool		crc32_chksum = false;
	const ulint zip_size = fil_space_t::zip_size(fsp_flags);
	const uint16_t page_type = fil_page_get_type(read_buf);

	/* We can trust page type if page compression is set on tablespace
	flags because page compression flag means file must have been
	created with 10.1 (later than 5.5 code base). In 10.1 page
	compressed tables do not contain post compression checksum and
	FIL_PAGE_END_LSN_OLD_CHKSUM field stored. Note that space can
	be null if we are in fil_check_first_page() and first page
	is not compressed or encrypted. Page checksum is verified
	after decompression (i.e. normally pages are already
	decompressed at this stage). */
	if ((page_type == FIL_PAGE_PAGE_COMPRESSED ||
	     page_type == FIL_PAGE_PAGE_COMPRESSED_ENCRYPTED)
#ifndef UNIV_INNOCHECKSUM
	    && FSP_FLAGS_HAS_PAGE_COMPRESSION(fsp_flags)
#endif
	) {
		return(false);
	}

	static_assert(FIL_PAGE_LSN % 4 == 0, "alignment");
	static_assert(FIL_PAGE_END_LSN_OLD_CHKSUM % 4 == 0, "alignment");

	if (!zip_size
	    && memcmp_aligned<4>(read_buf + FIL_PAGE_LSN + 4,
				 read_buf + srv_page_size
				 - FIL_PAGE_END_LSN_OLD_CHKSUM + 4, 4)) {
		/* Stored log sequence numbers at the start and the end
		of page do not match */

		return(true);
	}

	buf_page_check_lsn(check_lsn, read_buf);

	/* Check whether the checksum fields have correct values */

	const srv_checksum_algorithm_t curr_algo =
		static_cast<srv_checksum_algorithm_t>(srv_checksum_algorithm);

	if (curr_algo == SRV_CHECKSUM_ALGORITHM_NONE) {
		return(false);
	}

	if (zip_size) {
		return !page_zip_verify_checksum(read_buf, zip_size);
	}

	checksum_field1 = mach_read_from_4(
		read_buf + FIL_PAGE_SPACE_OR_CHKSUM);

	checksum_field2 = mach_read_from_4(
		read_buf + srv_page_size - FIL_PAGE_END_LSN_OLD_CHKSUM);

	static_assert(FIL_PAGE_LSN % 8 == 0, "alignment");

	/* A page filled with NUL bytes is considered not corrupted.
	Before MariaDB Server 10.1.25 (MDEV-12113) or 10.2.2 (or MySQL 5.7),
	the FIL_PAGE_FILE_FLUSH_LSN field may have been written nonzero
	for the first page of each file of the system tablespace.
	We want to ignore it for the system tablespace, but because
	we do not know the expected tablespace here, we ignore the
	field for all data files, except for
	innodb_checksum_algorithm=full_crc32 which we handled above. */
	if (!checksum_field1 && !checksum_field2) {
		/* Checksum fields can have valid value as zero.
		If the page is not empty then do the checksum
		calculation for the page. */
		bool all_zeroes = true;
		for (size_t i = 0; i < srv_page_size; i++) {
#ifndef UNIV_INNOCHECKSUM
			if (i == FIL_PAGE_FILE_FLUSH_LSN_OR_KEY_VERSION) {
				i += 8;
			}
#endif
			if (read_buf[i]) {
				all_zeroes = false;
				break;
			}
		}

		if (all_zeroes) {
			return false;
		}
	}

	switch (curr_algo) {
	case SRV_CHECKSUM_ALGORITHM_STRICT_FULL_CRC32:
	case SRV_CHECKSUM_ALGORITHM_STRICT_CRC32:
		return !buf_page_is_checksum_valid_crc32(
			read_buf, checksum_field1, checksum_field2);
	case SRV_CHECKSUM_ALGORITHM_STRICT_INNODB:
		return !buf_page_is_checksum_valid_innodb(
			read_buf, checksum_field1, checksum_field2);
	case SRV_CHECKSUM_ALGORITHM_STRICT_NONE:
		return !buf_page_is_checksum_valid_none(
			read_buf, checksum_field1, checksum_field2);
	case SRV_CHECKSUM_ALGORITHM_FULL_CRC32:
	case SRV_CHECKSUM_ALGORITHM_CRC32:
	case SRV_CHECKSUM_ALGORITHM_INNODB:
		if (buf_page_is_checksum_valid_none(read_buf,
			checksum_field1, checksum_field2)) {
#ifdef UNIV_INNOCHECKSUM
			if (log_file) {
				fprintf(log_file, "page::%llu;"
					" old style: calculated = %u;"
					" recorded = " ULINTPF ";\n",
					cur_page_num,
					buf_calc_page_old_checksum(read_buf),
					checksum_field2);
				fprintf(log_file, "page::%llu;"
					" new style: calculated = %u;"
					" crc32 = %u; recorded = " ULINTPF ";\n",
					cur_page_num,
					buf_calc_page_new_checksum(read_buf),
					buf_calc_page_crc32(read_buf),
					checksum_field1);
			}
#endif /* UNIV_INNOCHECKSUM */
			return false;
		}

		crc32_chksum = curr_algo == SRV_CHECKSUM_ALGORITHM_CRC32
			|| curr_algo == SRV_CHECKSUM_ALGORITHM_FULL_CRC32;

		/* Very old versions of InnoDB only stored 8 byte lsn to the
		start and the end of the page. */

		/* Since innodb_checksum_algorithm is not strict_* allow
		any of the algos to match for the old field */

		if (checksum_field2
		    != mach_read_from_4(read_buf + FIL_PAGE_LSN)
		    && checksum_field2 != BUF_NO_CHECKSUM_MAGIC) {

			if (crc32_chksum) {
				crc32 = buf_calc_page_crc32(read_buf);
				crc32_inited = true;

				DBUG_EXECUTE_IF(
					"page_intermittent_checksum_mismatch", {
					static int page_counter;
					if (page_counter++ == 2) {
						crc32++;
					}
				});

				if (checksum_field2 != crc32
				    && checksum_field2
				       != buf_calc_page_old_checksum(read_buf)) {
					return true;
				}
			} else {
				ut_ad(curr_algo
				      == SRV_CHECKSUM_ALGORITHM_INNODB);

				if (checksum_field2
				    != buf_calc_page_old_checksum(read_buf)) {
					crc32 = buf_calc_page_crc32(read_buf);
					crc32_inited = true;

					if (checksum_field2 != crc32) {
						return true;
					}
				}
			}
		}

		if (checksum_field1 == 0
		    || checksum_field1 == BUF_NO_CHECKSUM_MAGIC) {
		} else if (crc32_chksum) {

			if (!crc32_inited) {
				crc32 = buf_calc_page_crc32(read_buf);
				crc32_inited = true;
			}

			if (checksum_field1 != crc32
			    && checksum_field1
			    != buf_calc_page_new_checksum(read_buf)) {
				return true;
			}
		} else {
			ut_ad(curr_algo == SRV_CHECKSUM_ALGORITHM_INNODB);

			if (checksum_field1
			    != buf_calc_page_new_checksum(read_buf)) {

				if (!crc32_inited) {
					crc32 = buf_calc_page_crc32(read_buf);
					crc32_inited = true;
				}

				if (checksum_field1 != crc32) {
					return true;
				}
			}
		}

		if (crc32_inited
		    && ((checksum_field1 == crc32
			 && checksum_field2 != crc32)
			|| (checksum_field1 != crc32
			    && checksum_field2 == crc32))) {
			return true;
		}

		break;
	case SRV_CHECKSUM_ALGORITHM_NONE:
		/* should have returned false earlier */
		break;
	}

	return false;
}

#ifndef UNIV_INNOCHECKSUM

#if defined(DBUG_OFF) && defined(HAVE_MADVISE) &&  defined(MADV_DODUMP)
/** Enable buffers to be dumped to core files

A convience function, not called anyhwere directly however
it is left available for gdb or any debugger to call
in the event that you want all of the memory to be dumped
to a core file.

Returns number of errors found in madvise calls. */
int
buf_madvise_do_dump()
{
	int ret= 0;

	/* mirrors allocation in log_t::create() */
	if (log_sys.buf) {
		ret += madvise(log_sys.buf,
			       srv_log_buffer_size,
			       MADV_DODUMP);
		ret += madvise(log_sys.flush_buf,
			       srv_log_buffer_size,
			       MADV_DODUMP);
	}
	/* mirrors recv_sys_t::create() */
	if (recv_sys.buf)
	{
		ret+= madvise(recv_sys.buf, recv_sys.len, MADV_DODUMP);
	}

	mysql_mutex_lock(&buf_pool.mutex);
	auto chunk = buf_pool.chunks;

	for (ulint n = buf_pool.n_chunks; n--; chunk++) {
		ret+= madvise(chunk->mem, chunk->mem_size(), MADV_DODUMP);
	}

	mysql_mutex_lock(&buf_pool.mutex);
	return ret;
}
#endif

/** Dump a page to stderr.
@param[in]	read_buf	database page
@param[in]	zip_size	compressed page size, or 0 */
void buf_page_print(const byte* read_buf, ulint zip_size)
{
	dict_index_t*	index;

#ifndef UNIV_DEBUG
	const ulint size = zip_size ? zip_size : srv_page_size;
	ib::info() << "Page dump in ascii and hex ("
		<< size << " bytes):";

	ut_print_buf(stderr, read_buf, size);
	fputs("\nInnoDB: End of page dump\n", stderr);
#endif

	if (zip_size) {
		/* Print compressed page. */
		ib::info() << "Compressed page type ("
			<< fil_page_get_type(read_buf)
			<< "); stored checksum in field1 "
			<< mach_read_from_4(
				read_buf + FIL_PAGE_SPACE_OR_CHKSUM)
			<< "; calculated checksums for field1: "
			<< buf_checksum_algorithm_name(
				SRV_CHECKSUM_ALGORITHM_CRC32)
			<< " "
			<< page_zip_calc_checksum(
				read_buf, zip_size,
				SRV_CHECKSUM_ALGORITHM_CRC32)
			<< ", "
			<< buf_checksum_algorithm_name(
				SRV_CHECKSUM_ALGORITHM_INNODB)
			<< " "
			<< page_zip_calc_checksum(
				read_buf, zip_size,
				SRV_CHECKSUM_ALGORITHM_INNODB)
			<< ", "
			<< buf_checksum_algorithm_name(
				SRV_CHECKSUM_ALGORITHM_NONE)
			<< " "
			<< page_zip_calc_checksum(
				read_buf, zip_size,
				SRV_CHECKSUM_ALGORITHM_NONE)
			<< "; page LSN "
			<< mach_read_from_8(read_buf + FIL_PAGE_LSN)
			<< "; page number (if stored to page"
			<< " already) "
			<< mach_read_from_4(read_buf + FIL_PAGE_OFFSET)
			<< "; space id (if stored to page already) "
			<< mach_read_from_4(
				read_buf + FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID);

	} else {
		const uint32_t	crc32 = buf_calc_page_crc32(read_buf);
		ulint page_type = fil_page_get_type(read_buf);

		ib::info() << "Uncompressed page, stored checksum in field1 "
			<< mach_read_from_4(
				read_buf + FIL_PAGE_SPACE_OR_CHKSUM)
			<< ", calculated checksums for field1: "
			<< buf_checksum_algorithm_name(
				SRV_CHECKSUM_ALGORITHM_CRC32) << " "
			<< crc32
			<< ", "
			<< buf_checksum_algorithm_name(
				SRV_CHECKSUM_ALGORITHM_INNODB) << " "
			<< buf_calc_page_new_checksum(read_buf)
			<< ", "
			<< " page type " << page_type << " == "
			<< fil_get_page_type_name(page_type) << "."
			<< buf_checksum_algorithm_name(
				SRV_CHECKSUM_ALGORITHM_NONE) << " "
			<< BUF_NO_CHECKSUM_MAGIC
			<< ", stored checksum in field2 "
			<< mach_read_from_4(read_buf + srv_page_size
					    - FIL_PAGE_END_LSN_OLD_CHKSUM)
			<< ", calculated checksums for field2: "
			<< buf_checksum_algorithm_name(
				SRV_CHECKSUM_ALGORITHM_CRC32) << " "
			<< crc32
			<< ", "
			<< buf_checksum_algorithm_name(
				SRV_CHECKSUM_ALGORITHM_INNODB) << " "
			<< buf_calc_page_old_checksum(read_buf)
			<< ", "
			<< buf_checksum_algorithm_name(
				SRV_CHECKSUM_ALGORITHM_NONE) << " "
			<< BUF_NO_CHECKSUM_MAGIC
			<< ",  page LSN "
			<< mach_read_from_4(read_buf + FIL_PAGE_LSN)
			<< " "
			<< mach_read_from_4(read_buf + FIL_PAGE_LSN + 4)
			<< ", low 4 bytes of LSN at page end "
			<< mach_read_from_4(read_buf + srv_page_size
					    - FIL_PAGE_END_LSN_OLD_CHKSUM + 4)
			<< ", page number (if stored to page already) "
			<< mach_read_from_4(read_buf + FIL_PAGE_OFFSET)
			<< ", space id (if created with >= MySQL-4.1.1"
			   " and stored already) "
			<< mach_read_from_4(
				read_buf + FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID);
	}

	switch (fil_page_get_type(read_buf)) {
		index_id_t	index_id;
	case FIL_PAGE_INDEX:
	case FIL_PAGE_TYPE_INSTANT:
	case FIL_PAGE_RTREE:
		index_id = btr_page_get_index_id(read_buf);
		ib::info() << "Page may be an index page where"
			" index id is " << index_id;

		index = dict_index_find_on_id_low(index_id);
		if (index) {
			ib::info()
				<< "Index " << index_id
				<< " is " << index->name
				<< " in table " << index->table->name;
		}
		break;
	case FIL_PAGE_UNDO_LOG:
		fputs("InnoDB: Page may be an undo log page\n", stderr);
		break;
	case FIL_PAGE_INODE:
		fputs("InnoDB: Page may be an 'inode' page\n", stderr);
		break;
	case FIL_PAGE_IBUF_FREE_LIST:
		fputs("InnoDB: Page may be an insert buffer free list page\n",
		      stderr);
		break;
	case FIL_PAGE_TYPE_ALLOCATED:
		fputs("InnoDB: Page may be a freshly allocated page\n",
		      stderr);
		break;
	case FIL_PAGE_IBUF_BITMAP:
		fputs("InnoDB: Page may be an insert buffer bitmap page\n",
		      stderr);
		break;
	case FIL_PAGE_TYPE_SYS:
		fputs("InnoDB: Page may be a system page\n",
		      stderr);
		break;
	case FIL_PAGE_TYPE_TRX_SYS:
		fputs("InnoDB: Page may be a transaction system page\n",
		      stderr);
		break;
	case FIL_PAGE_TYPE_FSP_HDR:
		fputs("InnoDB: Page may be a file space header page\n",
		      stderr);
		break;
	case FIL_PAGE_TYPE_XDES:
		fputs("InnoDB: Page may be an extent descriptor page\n",
		      stderr);
		break;
	case FIL_PAGE_TYPE_BLOB:
		fputs("InnoDB: Page may be a BLOB page\n",
		      stderr);
		break;
	case FIL_PAGE_TYPE_ZBLOB:
	case FIL_PAGE_TYPE_ZBLOB2:
		fputs("InnoDB: Page may be a compressed BLOB page\n",
		      stderr);
		break;
	}
}

/** Initialize a buffer page descriptor.
@param[in,out]	block	buffer page descriptor
@param[in]	frame	buffer page frame */
static
void
buf_block_init(buf_block_t* block, byte* frame)
{
	/* This function should only be executed at database startup or by
	buf_pool.resize(). Either way, adaptive hash index must not exist. */
	assert_block_ahi_empty_on_init(block);

	block->frame = frame;

	MEM_MAKE_DEFINED(&block->modify_clock, sizeof block->modify_clock);
	ut_ad(!block->modify_clock);
	block->page.init(BUF_BLOCK_NOT_USED, page_id_t(~0ULL));
#ifdef BTR_CUR_HASH_ADAPT
	MEM_MAKE_DEFINED(&block->index, sizeof block->index);
	ut_ad(!block->index);
#endif /* BTR_CUR_HASH_ADAPT */
	ut_d(block->in_unzip_LRU_list = false);
	ut_d(block->in_withdraw_list = false);

	page_zip_des_init(&block->page.zip);

	MEM_MAKE_DEFINED(&block->lock, sizeof block->lock);
	block->lock.init();
}

/** Allocate a chunk of buffer frames.
@param bytes    requested size
@return whether the allocation succeeded */
inline bool buf_pool_t::chunk_t::create(size_t bytes)
{
  DBUG_EXECUTE_IF("ib_buf_chunk_init_fails", return false;);
  /* Round down to a multiple of page size, although it already should be. */
  bytes= ut_2pow_round<size_t>(bytes, srv_page_size);

  mem= buf_pool.allocator.allocate_large_dontdump(bytes, &mem_pfx);

  if (UNIV_UNLIKELY(!mem))
    return false;

  MEM_UNDEFINED(mem, mem_size());

#ifdef HAVE_LIBNUMA
  if (srv_numa_interleave)
  {
    struct bitmask *numa_mems_allowed= numa_get_mems_allowed();
    if (mbind(mem, mem_size(), MPOL_INTERLEAVE,
              numa_mems_allowed->maskp, numa_mems_allowed->size,
              MPOL_MF_MOVE))
    {
      ib::warn() << "Failed to set NUMA memory policy of"
              " buffer pool page frames to MPOL_INTERLEAVE"
              " (error: " << strerror(errno) << ").";
    }
    numa_bitmask_free(numa_mems_allowed);
  }
#endif /* HAVE_LIBNUMA */


  /* Allocate the block descriptors from
  the start of the memory block. */
  blocks= reinterpret_cast<buf_block_t*>(mem);

  /* Align a pointer to the first frame.  Note that when
  opt_large_page_size is smaller than srv_page_size,
  (with max srv_page_size at 64k don't think any hardware
  makes this true),
  we may allocate one fewer block than requested.  When
  it is bigger, we may allocate more blocks than requested. */
  static_assert(sizeof(byte*) == sizeof(ulint), "pointer size");

  byte *frame= reinterpret_cast<byte*>((reinterpret_cast<ulint>(mem) +
                                        srv_page_size - 1) &
                                       ~ulint{srv_page_size - 1});
  size= (mem_pfx.m_size >> srv_page_size_shift) - (frame != mem);

  /* Subtract the space needed for block descriptors. */
  {
    ulint s= size;

    while (frame < reinterpret_cast<const byte*>(blocks + s))
    {
      frame+= srv_page_size;
      s--;
    }

    size= s;
  }

  /* Init block structs and assign frames for them. Then we assign the
  frames to the first blocks (we already mapped the memory above). */

  buf_block_t *block= blocks;

  for (auto i= size; i--; ) {
    buf_block_init(block, frame);
    MEM_UNDEFINED(block->frame, srv_page_size);
    /* Add the block to the free list */
    UT_LIST_ADD_LAST(buf_pool.free, &block->page);

    ut_d(block->page.in_free_list = TRUE);
    block++;
    frame+= srv_page_size;
  }

  reg();

  return true;
}

#ifdef UNIV_DEBUG
/** Check that all file pages in the buffer chunk are in a replaceable state.
@return address of a non-free block
@retval nullptr if all freed */
inline const buf_block_t *buf_pool_t::chunk_t::not_freed() const
{
  buf_block_t *block= blocks;
  for (auto i= size; i--; block++)
  {
    switch (block->page.state()) {
    case BUF_BLOCK_ZIP_PAGE:
      /* The uncompressed buffer pool should never
      contain ROW_FORMAT=COMPRESSED block descriptors. */
      ut_error;
      break;
    case BUF_BLOCK_NOT_USED:
    case BUF_BLOCK_MEMORY:
    case BUF_BLOCK_REMOVE_HASH:
      /* Skip blocks that are not being used for file pages. */
      break;
    case BUF_BLOCK_FILE_PAGE:
      if (srv_read_only_mode)
      {
        /* The page cleaner is disabled in read-only mode.  No pages
        can be dirtied, so all of them must be clean. */
        ut_d(lsn_t oldest_modification= block->page.oldest_modification());
        ut_ad(oldest_modification == 0 ||
              oldest_modification == recv_sys.recovered_lsn ||
              srv_force_recovery == SRV_FORCE_NO_LOG_REDO);
        ut_ad(!block->page.buf_fix_count());
        ut_ad(block->page.io_fix() == BUF_IO_NONE);
        break;
      }

      if (fsp_is_system_temporary(block->page.id().space()))
      {
        ut_ad(block->page.oldest_modification() <= 1);
        break;
      }

      if (!block->page.ready_for_replace())
        return block;

      break;
    }
  }

  return nullptr;
}
#endif /* UNIV_DEBUG */

/** Free the synchronization objects of a buffer pool block descriptor
@param[in,out]	block	buffer pool block descriptor */
static void buf_block_free_mutexes(buf_block_t* block)
{
	block->lock.free();
}

/** Create the hash table.
@param n  the lower bound of n_cells */
void buf_pool_t::page_hash_table::create(ulint n)
{
  n_cells= ut_find_prime(n);
  const size_t size= pad(n_cells) * sizeof *array;
  void* v= aligned_malloc(size, CPU_LEVEL1_DCACHE_LINESIZE);
  memset(v, 0, size);
  array= static_cast<hash_cell_t*>(v);
}

/** Create the buffer pool.
@return whether the creation failed */
bool buf_pool_t::create()
{
  ut_ad(this == &buf_pool);
  ut_ad(srv_buf_pool_size % srv_buf_pool_chunk_unit == 0);
  ut_ad(!is_initialised());
  ut_ad(srv_buf_pool_size > 0);

  NUMA_MEMPOLICY_INTERLEAVE_IN_SCOPE;

  ut_ad(!resizing);
  ut_ad(!chunks_old);

  chunk_t::map_reg= UT_NEW_NOKEY(chunk_t::map());

  new(&allocator) ut_allocator<unsigned char>(mem_key_buf_buf_pool);

  n_chunks= srv_buf_pool_size / srv_buf_pool_chunk_unit;
  const size_t chunk_size= srv_buf_pool_chunk_unit;

  chunks= static_cast<chunk_t*>(ut_zalloc_nokey(n_chunks * sizeof *chunks));
  UT_LIST_INIT(free, &buf_page_t::list);
  curr_size= 0;
  auto chunk= chunks;

  do
  {
    if (!chunk->create(chunk_size))
    {
      while (--chunk >= chunks)
      {
        buf_block_t* block= chunk->blocks;

        for (auto i= chunk->size; i--; block++)
          buf_block_free_mutexes(block);

        allocator.deallocate_large_dodump(chunk->mem, &chunk->mem_pfx);
      }
      ut_free(chunks);
      chunks= nullptr;
      UT_DELETE(chunk_t::map_reg);
      chunk_t::map_reg= nullptr;
      ut_ad(!is_initialised());
      return true;
    }

    curr_size+= chunk->size;
  }
  while (++chunk < chunks + n_chunks);

  ut_ad(is_initialised());
  mysql_mutex_init(buf_pool_mutex_key, &mutex, MY_MUTEX_INIT_FAST);

  UT_LIST_INIT(LRU, &buf_page_t::LRU);
  UT_LIST_INIT(withdraw, &buf_page_t::list);
  withdraw_target= 0;
  UT_LIST_INIT(flush_list, &buf_page_t::list);
  UT_LIST_INIT(unzip_LRU, &buf_block_t::unzip_LRU);

  for (size_t i= 0; i < UT_ARR_SIZE(zip_free); ++i)
    UT_LIST_INIT(zip_free[i], &buf_buddy_free_t::list);
  ulint s= curr_size;
  old_size= s;
  s/= BUF_READ_AHEAD_PORTION;
  read_ahead_area= s >= READ_AHEAD_PAGES
    ? READ_AHEAD_PAGES
    : my_round_up_to_next_power(static_cast<uint32_t>(s));
  curr_pool_size= srv_buf_pool_size;

  n_chunks_new= n_chunks;

  page_hash.create(2 * curr_size);
  zip_hash.create(2 * curr_size);
  last_printout_time= time(NULL);

  mysql_mutex_init(flush_list_mutex_key, &flush_list_mutex,
                   MY_MUTEX_INIT_FAST);

  mysql_cond_init(0, &done_flush_LRU, nullptr);
  mysql_cond_init(0, &done_flush_list, nullptr);
  mysql_cond_init(0, &do_flush_list, nullptr);

  try_LRU_scan= true;

  ut_d(flush_hp.m_mutex= &flush_list_mutex;);
  ut_d(lru_hp.m_mutex= &mutex);
  ut_d(lru_scan_itr.m_mutex= &mutex);

  io_buf.create((srv_n_read_io_threads + srv_n_write_io_threads) *
                OS_AIO_N_PENDING_IOS_PER_THREAD);

  /* FIXME: remove some of these variables */
  srv_buf_pool_curr_size= curr_pool_size;
  srv_buf_pool_old_size= srv_buf_pool_size;
  srv_buf_pool_base_size= srv_buf_pool_size;

  chunk_t::map_ref= chunk_t::map_reg;
  buf_LRU_old_ratio_update(100 * 3 / 8, false);
  btr_search_sys_create();
  ut_ad(is_initialised());
  return false;
}

/** Clean up after successful create() */
void buf_pool_t::close()
{
  ut_ad(this == &buf_pool);
  if (!is_initialised())
    return;

  mysql_mutex_destroy(&mutex);
  mysql_mutex_destroy(&flush_list_mutex);

  for (buf_page_t *bpage= UT_LIST_GET_LAST(LRU), *prev_bpage= nullptr; bpage;
       bpage= prev_bpage)
  {
    prev_bpage= UT_LIST_GET_PREV(LRU, bpage);
    ut_ad(bpage->in_file());
    ut_ad(bpage->in_LRU_list);
    /* The buffer pool must be clean during normal shutdown.
    Only on aborted startup (with recovery) or with innodb_fast_shutdown=2
    we may discard changes. */
    ut_d(const lsn_t oldest= bpage->oldest_modification();)
    ut_ad(!oldest || srv_is_being_started ||
          srv_fast_shutdown == 2 ||
          (oldest == 1 && fsp_is_system_temporary(bpage->id().space())));

    if (bpage->state() != BUF_BLOCK_FILE_PAGE)
      buf_page_free_descriptor(bpage);
  }

  for (auto chunk= chunks + n_chunks; --chunk >= chunks; )
  {
    buf_block_t *block= chunk->blocks;

    for (auto i= chunk->size; i--; block++)
      buf_block_free_mutexes(block);

    allocator.deallocate_large_dodump(chunk->mem, &chunk->mem_pfx);
  }

  mysql_cond_destroy(&done_flush_LRU);
  mysql_cond_destroy(&done_flush_list);
  mysql_cond_destroy(&do_flush_list);

  ut_free(chunks);
  chunks= nullptr;
  page_hash.free();
  while (page_hash_table *old_page_hash= freed_page_hash)
  {
    freed_page_hash= static_cast<page_hash_table*>
      (old_page_hash->array[1].node);
    old_page_hash->free();
    UT_DELETE(old_page_hash);
  }
  zip_hash.free();

  io_buf.close();
  UT_DELETE(chunk_t::map_reg);
  chunk_t::map_reg= chunk_t::map_ref= nullptr;
}

/** Try to reallocate a control block.
@param block  control block to reallocate
@return whether the reallocation succeeded */
inline bool buf_pool_t::realloc(buf_block_t *block)
{
	buf_block_t*	new_block;

	mysql_mutex_assert_owner(&mutex);
	ut_ad(block->page.state() == BUF_BLOCK_FILE_PAGE);

	new_block = buf_LRU_get_free_only();

	if (new_block == NULL) {
		return(false); /* free list was not enough */
	}

	const page_id_t id(block->page.id());
	page_hash_latch* hash_lock = hash_lock_get(id);
	hash_lock->write_lock();

	if (block->page.can_relocate()) {
		memcpy_aligned<OS_FILE_LOG_BLOCK_SIZE>(
			new_block->frame, block->frame, srv_page_size);
		new (&new_block->page) buf_page_t(block->page);

		/* relocate LRU list */
		if (buf_page_t*	prev_b = buf_pool.LRU_remove(&block->page)) {
			UT_LIST_INSERT_AFTER(LRU, prev_b, &new_block->page);
		} else {
			UT_LIST_ADD_FIRST(LRU, &new_block->page);
		}

		if (LRU_old == &block->page) {
			LRU_old = &new_block->page;
		}

		ut_ad(new_block->page.in_LRU_list);

		/* relocate unzip_LRU list */
		if (block->page.zip.data != NULL) {
			ut_ad(block->in_unzip_LRU_list);
			ut_d(new_block->in_unzip_LRU_list = true);

			buf_block_t*	prev_block = UT_LIST_GET_PREV(unzip_LRU, block);
			UT_LIST_REMOVE(unzip_LRU, block);

			ut_d(block->in_unzip_LRU_list = false);
			block->page.zip.data = NULL;
			page_zip_set_size(&block->page.zip, 0);

			if (prev_block != NULL) {
				UT_LIST_INSERT_AFTER(unzip_LRU, prev_block, new_block);
			} else {
				UT_LIST_ADD_FIRST(unzip_LRU, new_block);
			}
		} else {
			ut_ad(!block->in_unzip_LRU_list);
			ut_d(new_block->in_unzip_LRU_list = false);
		}

		/* relocate page_hash */
		ut_ad(block->page.in_page_hash);
		ut_ad(new_block->page.in_page_hash);
		const ulint fold = id.fold();
		ut_ad(&block->page == page_hash_get_low(id, fold));
		ut_d(block->page.in_page_hash = false);
		HASH_REPLACE(buf_page_t, hash, &page_hash, fold,
			     &block->page, &new_block->page);

		buf_block_modify_clock_inc(block);
		static_assert(FIL_PAGE_OFFSET % 4 == 0, "alignment");
		memset_aligned<4>(block->frame + FIL_PAGE_OFFSET, 0xff, 4);
		static_assert(FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID % 4 == 2,
			      "not perfect alignment");
		memset_aligned<2>(block->frame
				  + FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID, 0xff, 4);
		MEM_UNDEFINED(block->frame, srv_page_size);
		block->page.set_state(BUF_BLOCK_REMOVE_HASH);
		buf_flush_relocate_on_flush_list(&block->page,
						 &new_block->page);
		block->page.set_corrupt_id();

		/* set other flags of buf_block_t */

#ifdef BTR_CUR_HASH_ADAPT
		/* This code should only be executed by resize(),
		while the adaptive hash index is disabled. */
		assert_block_ahi_empty(block);
		assert_block_ahi_empty_on_init(new_block);
		ut_ad(!block->index);
		new_block->index	= NULL;
		new_block->n_hash_helps	= 0;
		new_block->n_fields	= 1;
		new_block->left_side	= TRUE;
#endif /* BTR_CUR_HASH_ADAPT */

		hash_lock->write_unlock();

		/* free block */
		ut_d(block->page.set_state(BUF_BLOCK_MEMORY));
		buf_LRU_block_free_non_file_page(block);
	} else {
		hash_lock->write_unlock();
		buf_LRU_block_free_non_file_page(new_block);
	}

	return(true); /* free_list was enough */
}

/** Sets the global variable that feeds MySQL's innodb_buffer_pool_resize_status
to the specified string. The format and the following parameters are the
same as the ones used for printf(3).
@param[in]	fmt	format
@param[in]	...	extra parameters according to fmt */
static
void
buf_resize_status(
	const char*	fmt,
	...)
{
	va_list	ap;

	va_start(ap, fmt);

	vsnprintf(
		export_vars.innodb_buffer_pool_resize_status,
		sizeof(export_vars.innodb_buffer_pool_resize_status),
		fmt, ap);

	va_end(ap);

	ib::info() << export_vars.innodb_buffer_pool_resize_status;
}

/** Withdraw blocks from the buffer pool until meeting withdraw_target.
@return whether retry is needed */
inline bool buf_pool_t::withdraw_blocks()
{
	buf_block_t*	block;
	ulint		loop_count = 0;

	ib::info() << "start to withdraw the last "
		<< withdraw_target << " blocks";

	/* Minimize zip_free[i] lists */
	mysql_mutex_lock(&mutex);
	buf_buddy_condense_free();
	mysql_mutex_unlock(&mutex);

	while (UT_LIST_GET_LEN(withdraw) < withdraw_target) {

		/* try to withdraw from free_list */
		ulint	count1 = 0;

		mysql_mutex_lock(&mutex);
		block = reinterpret_cast<buf_block_t*>(
			UT_LIST_GET_FIRST(free));
		while (block != NULL
		       && UT_LIST_GET_LEN(withdraw) < withdraw_target) {
			ut_ad(block->page.in_free_list);
			ut_ad(!block->page.oldest_modification());
			ut_ad(!block->page.in_LRU_list);
			ut_a(!block->page.in_file());

			buf_block_t*	next_block;
			next_block = reinterpret_cast<buf_block_t*>(
				UT_LIST_GET_NEXT(
					list, &block->page));

			if (will_be_withdrawn(block->page)) {
				/* This should be withdrawn */
				UT_LIST_REMOVE(free, &block->page);
				UT_LIST_ADD_LAST(withdraw, &block->page);
				ut_d(block->in_withdraw_list = true);
				count1++;
			}

			block = next_block;
		}
		mysql_mutex_unlock(&mutex);

		/* reserve free_list length */
		if (UT_LIST_GET_LEN(withdraw) < withdraw_target) {
			ulint n_flushed = buf_flush_lists(
				std::max<ulint>(withdraw_target
						- UT_LIST_GET_LEN(withdraw),
						srv_LRU_scan_depth), 0);
			buf_flush_wait_batch_end_acquiring_mutex(true);

			if (n_flushed) {
				MONITOR_INC_VALUE_CUMULATIVE(
					MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE,
					MONITOR_LRU_BATCH_FLUSH_COUNT,
					MONITOR_LRU_BATCH_FLUSH_PAGES,
					n_flushed);
			}
		}

		/* relocate blocks/buddies in withdrawn area */
		ulint	count2 = 0;

		mysql_mutex_lock(&mutex);
		buf_page_t*	bpage;
		bpage = UT_LIST_GET_FIRST(LRU);
		while (bpage != NULL) {
			buf_page_t* next_bpage = UT_LIST_GET_NEXT(LRU, bpage);
			if (bpage->zip.data != NULL
			    && will_be_withdrawn(bpage->zip.data)
			    && bpage->can_relocate()) {
				buf_pool_mutex_exit_forbid();
				if (!buf_buddy_realloc(
					    bpage->zip.data,
					    page_zip_get_size(&bpage->zip))) {
					/* failed to allocate block */
					buf_pool_mutex_exit_allow();
					break;
				}
				buf_pool_mutex_exit_allow();
				count2++;
			}

			if (bpage->state() == BUF_BLOCK_FILE_PAGE
			    && will_be_withdrawn(*bpage)) {
				if (bpage->can_relocate()) {
					buf_pool_mutex_exit_forbid();
					if (!realloc(
						reinterpret_cast<buf_block_t*>(
							bpage))) {
						/* failed to allocate block */
						buf_pool_mutex_exit_allow();
						break;
					}
					buf_pool_mutex_exit_allow();
					count2++;
				}
				/* NOTE: if the page is in use,
				not relocated yet */
			}

			bpage = next_bpage;
		}
		mysql_mutex_unlock(&mutex);

		buf_resize_status(
			"withdrawing blocks. (" ULINTPF "/" ULINTPF ")",
			UT_LIST_GET_LEN(withdraw),
			withdraw_target);

		ib::info() << "withdrew "
			<< count1 << " blocks from free list."
			<< " Tried to relocate " << count2 << " pages ("
			<< UT_LIST_GET_LEN(withdraw) << "/"
			<< withdraw_target << ")";

		if (++loop_count >= 10) {
			/* give up for now.
			retried after user threads paused. */

			ib::info() << "will retry to withdraw later";

			/* need retry later */
			return(true);
		}
	}

	/* confirm withdrawn enough */
	for (const chunk_t* chunk = chunks + n_chunks_new,
	     * const echunk = chunks + n_chunks; chunk != echunk; chunk++) {
		block = chunk->blocks;
		for (ulint j = chunk->size; j--; block++) {
			ut_a(block->page.state() == BUF_BLOCK_NOT_USED);
			ut_ad(block->in_withdraw_list);
		}
	}

	ib::info() << "withdrawn target: " << UT_LIST_GET_LEN(withdraw)
		   << " blocks";

	return(false);
}

/** resize page_hash and zip_hash */
inline void buf_pool_t::resize_hash()
{
  page_hash_table *new_page_hash= UT_NEW_NOKEY(page_hash_table());
  new_page_hash->create(2 * buf_pool.curr_size);
  new_page_hash->write_lock_all();

  for (auto i= page_hash.pad(page_hash.n_cells); i--; )
  {
    static_assert(!((page_hash_table::ELEMENTS_PER_LATCH + 1) &
                    page_hash_table::ELEMENTS_PER_LATCH),
                  "must be one less than a power of 2");
    if (!(i & page_hash_table::ELEMENTS_PER_LATCH))
    {
      ut_ad(reinterpret_cast<page_hash_latch*>
            (&page_hash.array[i])->is_write_locked());
      continue;
    }
    while (buf_page_t *bpage= static_cast<buf_page_t*>
           (page_hash.array[i].node))
    {
      ut_ad(bpage->in_page_hash);
      const ulint fold= bpage->id().fold();
      HASH_DELETE(buf_page_t, hash, &buf_pool.page_hash, fold, bpage);
      HASH_INSERT(buf_page_t, hash, new_page_hash, fold, bpage);
    }
  }

  buf_pool.page_hash.array[1].node= freed_page_hash;
  std::swap(buf_pool.page_hash, *new_page_hash);
  freed_page_hash= new_page_hash;

  /* recreate zip_hash */
  hash_table_t new_hash;
  new_hash.create(2 * buf_pool.curr_size);

  for (ulint i= 0; i < buf_pool.zip_hash.n_cells; i++)
  {
    while (buf_page_t *bpage= static_cast<buf_page_t*>
           (HASH_GET_FIRST(&buf_pool.zip_hash, i)))
    {
      const ulint fold= BUF_POOL_ZIP_FOLD_BPAGE(bpage);
      HASH_DELETE(buf_page_t, hash, &buf_pool.zip_hash, fold, bpage);
      HASH_INSERT(buf_page_t, hash, &new_hash, fold, bpage);
    }
  }

  std::swap(buf_pool.zip_hash.array, new_hash.array);
  buf_pool.zip_hash.n_cells= new_hash.n_cells;
  new_hash.free();
}


inline void buf_pool_t::page_hash_table::write_lock_all()
{
  for (auto n= pad(n_cells) & ~ELEMENTS_PER_LATCH;; n-= ELEMENTS_PER_LATCH + 1)
  {
    reinterpret_cast<page_hash_latch&>(array[n]).write_lock();
    if (!n)
      break;
  }
}


inline void buf_pool_t::page_hash_table::write_unlock_all()
{
  for (auto n= pad(n_cells) & ~ELEMENTS_PER_LATCH;; n-= ELEMENTS_PER_LATCH + 1)
  {
    reinterpret_cast<page_hash_latch&>(array[n]).write_unlock();
    if (!n)
      break;
  }
}


inline void buf_pool_t::write_lock_all_page_hash()
{
  mysql_mutex_assert_owner(&mutex);
  page_hash.write_lock_all();
  for (page_hash_table *old_page_hash= freed_page_hash; old_page_hash;
       old_page_hash= static_cast<page_hash_table*>
         (old_page_hash->array[1].node))
    old_page_hash->write_lock_all();
}


inline void buf_pool_t::write_unlock_all_page_hash()
{
  page_hash.write_unlock_all();
  for (page_hash_table *old_page_hash= freed_page_hash; old_page_hash;
       old_page_hash= static_cast<page_hash_table*>
         (old_page_hash->array[1].node))
    old_page_hash->write_unlock_all();
}

namespace
{

struct find_interesting_trx
{
  void operator()(const trx_t &trx)
  {
    if (trx.state == TRX_STATE_NOT_STARTED)
      return;
    if (trx.mysql_thd == nullptr)
      return;
    if (withdraw_started <= trx.start_time)
      return;

    if (!found)
    {
      ib::warn() << "The following trx might hold "
                    "the blocks in buffer pool to "
                    "be withdrawn. Buffer pool "
                    "resizing can complete only "
                    "after all the transactions "
                    "below release the blocks.";
      found= true;
    }

    lock_trx_print_wait_and_mvcc_state(stderr, &trx, current_time);
  }

  bool &found;
  time_t withdraw_started;
  time_t current_time;
};

} // namespace

/** Resize from srv_buf_pool_old_size to srv_buf_pool_size. */
inline void buf_pool_t::resize()
{
  ut_ad(this == &buf_pool);

	bool		warning = false;

	NUMA_MEMPOLICY_INTERLEAVE_IN_SCOPE;

	ut_ad(!resize_in_progress());
	ut_ad(srv_buf_pool_chunk_unit > 0);

	ulint new_instance_size = srv_buf_pool_size >> srv_page_size_shift;

	buf_resize_status("Resizing buffer pool from " ULINTPF " to "
			  ULINTPF " (unit=" ULINTPF ").",
			  srv_buf_pool_old_size, srv_buf_pool_size,
			  srv_buf_pool_chunk_unit);

	mysql_mutex_lock(&mutex);
	ut_ad(curr_size == old_size);
	ut_ad(n_chunks_new == n_chunks);
	ut_ad(UT_LIST_GET_LEN(withdraw) == 0);

	n_chunks_new = (new_instance_size << srv_page_size_shift)
		/ srv_buf_pool_chunk_unit;
	curr_size = n_chunks_new * chunks->size;
	mysql_mutex_unlock(&mutex);

#ifdef BTR_CUR_HASH_ADAPT
	/* disable AHI if needed */
	buf_resize_status("Disabling adaptive hash index.");

	btr_search_s_lock_all();
	const bool btr_search_disabled = btr_search_enabled;
	btr_search_s_unlock_all();

	btr_search_disable();

	if (btr_search_disabled) {
		ib::info() << "disabled adaptive hash index.";
	}
#endif /* BTR_CUR_HASH_ADAPT */

	if (curr_size < old_size) {
		/* set withdraw target */
		size_t w = 0;

		for (const chunk_t* chunk = chunks + n_chunks_new,
		     * const echunk = chunks + n_chunks;
		     chunk != echunk; chunk++)
			w += chunk->size;

		ut_ad(withdraw_target == 0);
		withdraw_target = w;
	}

	buf_resize_status("Withdrawing blocks to be shrunken.");

	time_t		withdraw_started = time(NULL);
	double		message_interval = 60;
	ulint		retry_interval = 1;

withdraw_retry:
	/* wait for the number of blocks fit to the new size (if needed)*/
	bool	should_retry_withdraw = curr_size < old_size
		&& withdraw_blocks();

	if (srv_shutdown_state != SRV_SHUTDOWN_NONE) {
		/* abort to resize for shutdown. */
		return;
	}

	/* abort buffer pool load */
	buf_load_abort();

	const time_t current_time = time(NULL);

	if (should_retry_withdraw
	    && difftime(current_time, withdraw_started) >= message_interval) {

		if (message_interval > 900) {
			message_interval = 1800;
		} else {
			message_interval *= 2;
		}

		mysql_mutex_lock(&lock_sys.mutex);
		bool	found = false;
		trx_sys.trx_list.for_each(find_interesting_trx{
			found, withdraw_started, current_time});
		mysql_mutex_unlock(&lock_sys.mutex);

		withdraw_started = current_time;
	}

	if (should_retry_withdraw) {
		ib::info() << "Will retry to withdraw " << retry_interval
			<< " seconds later.";
		os_thread_sleep(retry_interval * 1000000);

		if (retry_interval > 5) {
			retry_interval = 10;
		} else {
			retry_interval *= 2;
		}

		goto withdraw_retry;
	}

	buf_resize_status("Latching whole of buffer pool.");

#ifndef DBUG_OFF
	{
		bool	should_wait = true;

		while (should_wait) {
			should_wait = false;
			DBUG_EXECUTE_IF(
				"ib_buf_pool_resize_wait_before_resize",
				should_wait = true; os_thread_sleep(10000););
		}
	}
#endif /* !DBUG_OFF */

	if (srv_shutdown_state != SRV_SHUTDOWN_NONE) {
		return;
	}

	/* Indicate critical path */
	resizing.store(true, std::memory_order_relaxed);

  mysql_mutex_lock(&mutex);
  write_lock_all_page_hash();

	chunk_t::map_reg = UT_NEW_NOKEY(chunk_t::map());

	/* add/delete chunks */

	buf_resize_status("buffer pool resizing with chunks "
			  ULINTPF " to " ULINTPF ".",
			  n_chunks, n_chunks_new);

	if (n_chunks_new < n_chunks) {
		/* delete chunks */
		chunk_t* chunk = chunks + n_chunks_new;
		const chunk_t* const echunk = chunks + n_chunks;

		ulint	sum_freed = 0;

		while (chunk < echunk) {
			/* buf_LRU_block_free_non_file_page() invokes
			MEM_NOACCESS() on any buf_pool.free blocks.
			We must cancel the effect of that. In
			MemorySanitizer, MEM_NOACCESS() is no-op, so
			we must not do anything special for it here. */
#ifdef HAVE_valgrind
# if !__has_feature(memory_sanitizer)
			MEM_MAKE_DEFINED(chunk->mem, chunk->mem_size());
# endif
#else
			MEM_MAKE_ADDRESSABLE(chunk->mem, chunk->size);
#endif

			buf_block_t*	block = chunk->blocks;

			for (ulint j = chunk->size; j--; block++) {
				buf_block_free_mutexes(block);
			}

			allocator.deallocate_large_dodump(
				chunk->mem, &chunk->mem_pfx);
			sum_freed += chunk->size;
			++chunk;
		}

		/* discard withdraw list */
		UT_LIST_INIT(withdraw, &buf_page_t::list);
		withdraw_target = 0;

		ib::info() << n_chunks - n_chunks_new
			   << " chunks (" << sum_freed
			   << " blocks) were freed.";

		n_chunks = n_chunks_new;
	}

	{
		/* reallocate chunks */
		const size_t	new_chunks_size
			= n_chunks_new * sizeof(chunk_t);

		chunk_t*	new_chunks = static_cast<chunk_t*>(
			ut_zalloc_nokey_nofatal(new_chunks_size));

		DBUG_EXECUTE_IF("buf_pool_resize_chunk_null",
				ut_free(new_chunks); new_chunks= nullptr; );

		if (!new_chunks) {
			ib::error() << "failed to allocate"
				" the chunk array.";
			n_chunks_new = n_chunks;
			warning = true;
			chunks_old = NULL;
			goto calc_buf_pool_size;
		}

		ulint	n_chunks_copy = ut_min(n_chunks_new,
					       n_chunks);

		memcpy(new_chunks, chunks,
		       n_chunks_copy * sizeof *new_chunks);

		for (ulint j = 0; j < n_chunks_copy; j++) {
			new_chunks[j].reg();
		}

		chunks_old = chunks;
		chunks = new_chunks;
	}

	if (n_chunks_new > n_chunks) {
		/* add chunks */
		ulint	sum_added = 0;
		ulint	n = n_chunks;
		const size_t unit = srv_buf_pool_chunk_unit;

		for (chunk_t* chunk = chunks + n_chunks,
		     * const echunk = chunks + n_chunks_new;
		     chunk != echunk; chunk++) {
			if (!chunk->create(unit)) {
				ib::error() << "failed to allocate"
					" memory for buffer pool chunk";

				warning = true;
				n_chunks_new = n_chunks;
				break;
			}

			sum_added += chunk->size;
			++n;
		}

		ib::info() << n_chunks_new - n_chunks
			   << " chunks (" << sum_added
			   << " blocks) were added.";

		n_chunks = n;
	}
calc_buf_pool_size:
	/* recalc curr_size */
	ulint	new_size = 0;

	{
		chunk_t* chunk = chunks;
		const chunk_t* const echunk = chunk + n_chunks;
		do {
			new_size += chunk->size;
		} while (++chunk != echunk);
	}

	curr_size = new_size;
	n_chunks_new = n_chunks;

	if (chunks_old) {
		ut_free(chunks_old);
		chunks_old = NULL;
	}

	chunk_t::map* chunk_map_old = chunk_t::map_ref;
	chunk_t::map_ref = chunk_t::map_reg;

	/* set size */
	ut_ad(UT_LIST_GET_LEN(withdraw) == 0);
  ulint s= curr_size;
  old_size= s;
  s/= BUF_READ_AHEAD_PORTION;
  read_ahead_area= s >= READ_AHEAD_PAGES
    ? READ_AHEAD_PAGES
    : my_round_up_to_next_power(static_cast<uint32_t>(s));
  curr_pool_size= n_chunks * srv_buf_pool_chunk_unit;
  srv_buf_pool_curr_size= curr_pool_size;/* FIXME: remove*/
  innodb_set_buf_pool_size(buf_pool_size_align(srv_buf_pool_curr_size));

	const bool	new_size_too_diff
		= srv_buf_pool_base_size > srv_buf_pool_size * 2
			|| srv_buf_pool_base_size * 2 < srv_buf_pool_size;

	/* Normalize page_hash and zip_hash,
	if the new size is too different */
	if (!warning && new_size_too_diff) {
		buf_resize_status("Resizing hash table");
		resize_hash();
		ib::info() << "hash tables were resized";
	}

  mysql_mutex_unlock(&mutex);
  write_unlock_all_page_hash();

	UT_DELETE(chunk_map_old);

	resizing.store(false, std::memory_order_relaxed);

	/* Normalize other components, if the new size is too different */
	if (!warning && new_size_too_diff) {
		srv_buf_pool_base_size = srv_buf_pool_size;

		buf_resize_status("Resizing also other hash tables.");

		srv_lock_table_size = 5
			* (srv_buf_pool_size >> srv_page_size_shift);
		lock_sys.resize(srv_lock_table_size);
		dict_sys.resize();

		ib::info() << "Resized hash tables at lock_sys,"
#ifdef BTR_CUR_HASH_ADAPT
			" adaptive hash index,"
#endif /* BTR_CUR_HASH_ADAPT */
			" dictionary.";
	}

	/* normalize ibuf.max_size */
	ibuf_max_size_update(srv_change_buffer_max_size);

	if (srv_buf_pool_old_size != srv_buf_pool_size) {

		ib::info() << "Completed to resize buffer pool from "
			<< srv_buf_pool_old_size
			<< " to " << srv_buf_pool_size << ".";
		srv_buf_pool_old_size = srv_buf_pool_size;
	}

#ifdef BTR_CUR_HASH_ADAPT
	/* enable AHI if needed */
	if (btr_search_disabled) {
		btr_search_enable(true);
		ib::info() << "Re-enabled adaptive hash index.";
	}
#endif /* BTR_CUR_HASH_ADAPT */

	char	now[32];

	ut_sprintf_timestamp(now);
	if (!warning) {
		buf_resize_status("Completed resizing buffer pool at %s.",
			now);
	} else {
		buf_resize_status("Resizing buffer pool failed,"
			" finished resizing at %s.", now);
	}

	ut_d(validate());

	return;
}

/** Thread pool task invoked by innodb_buffer_pool_size changes. */
static void buf_resize_callback(void *)
{
  DBUG_ENTER("buf_resize_callback");
  ut_a(srv_shutdown_state == SRV_SHUTDOWN_NONE);
  mysql_mutex_lock(&buf_pool.mutex);
  const auto size= srv_buf_pool_size;
  const bool work= srv_buf_pool_old_size != size;
  mysql_mutex_unlock(&buf_pool.mutex);

  if (work)
    buf_pool.resize();
  else
  {
    std::ostringstream sout;
    sout << "Size did not change: old size = new size = " << size;
    buf_resize_status(sout.str().c_str());
  }
  DBUG_VOID_RETURN;
}

/* Ensure that task does not run in parallel, by setting max_concurrency to 1 for the thread group */
static tpool::task_group single_threaded_group(1);
static tpool::waitable_task buf_resize_task(buf_resize_callback,
	nullptr, &single_threaded_group);

void buf_resize_start()
{
	srv_thread_pool->submit_task(&buf_resize_task);
}

void buf_resize_shutdown()
{
	buf_resize_task.wait();
}


/** Relocate a ROW_FORMAT=COMPRESSED block in the LRU list and
buf_pool.page_hash.
The caller must relocate bpage->list.
@param bpage   BUF_BLOCK_ZIP_PAGE block
@param dpage   destination control block */
static void buf_relocate(buf_page_t *bpage, buf_page_t *dpage)
{
  const ulint fold= bpage->id().fold();
  ut_ad(bpage->state() == BUF_BLOCK_ZIP_PAGE);
  mysql_mutex_assert_owner(&buf_pool.mutex);
  ut_ad(buf_pool.hash_lock_get(bpage->id())->is_write_locked());
  ut_a(bpage->io_fix() == BUF_IO_NONE);
  ut_a(!bpage->buf_fix_count());
  ut_ad(bpage == buf_pool.page_hash_get_low(bpage->id(), fold));
  ut_ad(!buf_pool.watch_is_sentinel(*bpage));
  ut_ad(bpage->state() == BUF_BLOCK_ZIP_PAGE);

  new (dpage) buf_page_t(*bpage);

  /* Important that we adjust the hazard pointer before
  removing bpage from LRU list. */
  if (buf_page_t *b= buf_pool.LRU_remove(bpage))
    UT_LIST_INSERT_AFTER(buf_pool.LRU, b, dpage);
  else
    UT_LIST_ADD_FIRST(buf_pool.LRU, dpage);

  if (UNIV_UNLIKELY(buf_pool.LRU_old == bpage))
  {
    buf_pool.LRU_old= dpage;
#ifdef UNIV_LRU_DEBUG
    /* buf_pool.LRU_old must be the first item in the LRU list
    whose "old" flag is set. */
    ut_a(buf_pool.LRU_old->old);
    ut_a(!UT_LIST_GET_PREV(LRU, buf_pool.LRU_old) ||
         !UT_LIST_GET_PREV(LRU, buf_pool.LRU_old)->old);
    ut_a(!UT_LIST_GET_NEXT(LRU, buf_pool.LRU_old) ||
         UT_LIST_GET_NEXT(LRU, buf_pool.LRU_old)->old);
  }
  else
  {
    /* Check that the "old" flag is consistent in
    the block and its neighbours. */
    dpage->set_old(dpage->is_old());
#endif /* UNIV_LRU_DEBUG */
  }

  ut_d(CheckInLRUList::validate());

  /* relocate buf_pool.page_hash */
  ut_ad(bpage->in_page_hash);
  ut_ad(dpage->in_page_hash);
  ut_d(bpage->in_page_hash= false);
  HASH_REPLACE(buf_page_t, hash, &buf_pool.page_hash, fold, bpage, dpage);
}

/** Register a watch for a page identifier. The caller must hold an
exclusive page hash latch. The *hash_lock may be released,
relocated, and reacquired.
@param id         page identifier
@param hash_lock  exclusively held page_hash latch
@return a buffer pool block corresponding to id
@retval nullptr   if the block was not present, and a watch was installed */
inline buf_page_t *buf_pool_t::watch_set(const page_id_t id,
                                         page_hash_latch **hash_lock)
{
  const ulint fold= id.fold();
  ut_ad(*hash_lock == page_hash.lock_get(fold));
  ut_ad((*hash_lock)->is_write_locked());

retry:
  if (buf_page_t *bpage= page_hash_get_low(id, fold))
  {
    if (!watch_is_sentinel(*bpage))
      /* The page was loaded meanwhile. */
      return bpage;
    /* Add to an existing watch. */
    bpage->fix();
    return nullptr;
  }

  (*hash_lock)->write_unlock();
  /* Allocate a watch[] and then try to insert it into the page_hash. */
  mysql_mutex_lock(&mutex);

  /* The maximum number of purge tasks should never exceed
  the UT_ARR_SIZE(watch) - 1, and there is no way for a purge task to hold a
  watch when setting another watch. */
  for (buf_page_t *w= &watch[UT_ARR_SIZE(watch)]; w-- >= watch; )
  {
    ut_ad(w->access_time == 0);
    ut_ad(!w->oldest_modification());
    ut_ad(!w->zip.data);
    ut_ad(!w->in_zip_hash);
    if (w->state() == BUF_BLOCK_ZIP_PAGE)
      /* This watch may be in use for some other page. */
      continue;
    ut_ad(w->state() == BUF_BLOCK_NOT_USED);
    ut_ad(!w->buf_fix_count());
    /* w is pointing to watch[], which is protected by mutex.
    Normally, buf_page_t::id for objects that are reachable by
    page_hash_get_low(id, fold) are protected by hash_lock. */
    w->set_state(BUF_BLOCK_ZIP_PAGE);
    w->id_= id;

    *hash_lock= page_hash.lock_get(fold);
    (*hash_lock)->write_lock();
    mysql_mutex_unlock(&mutex);

    buf_page_t *bpage= page_hash_get_low(id, fold);
    if (UNIV_LIKELY_NULL(bpage))
    {
      (*hash_lock)->write_unlock();
      mysql_mutex_lock(&mutex);
      w->set_state(BUF_BLOCK_NOT_USED);
      *hash_lock= page_hash.lock_get(fold);
      (*hash_lock)->write_lock();
      mysql_mutex_unlock(&mutex);
      goto retry;
    }

    ut_ad(!w->buf_fix_count_);
    w->buf_fix_count_= 1;
    ut_ad(!w->in_page_hash);
    ut_d(w->in_page_hash= true); /* Not holding buf_pool.mutex here! */
    HASH_INSERT(buf_page_t, hash, &page_hash, fold, w);
    return nullptr;
  }

  ut_error;
  mysql_mutex_unlock(&mutex);
  return nullptr;
}

/** Mark the page status as FREED for the given tablespace id and
page number. If the page is not in the buffer pool then ignore it.
X-lock should be taken on the page before marking the page status
as FREED. It avoids the concurrent flushing of freed page.
Currently, this function only marks the page as FREED if it is
in buffer pool.
@param[in]	page_id	page id
@param[in,out]	mtr	mini-transaction */
void buf_page_free(const page_id_t page_id, mtr_t *mtr)
{
  ut_ad(mtr);
  ut_ad(mtr->is_active());
  buf_pool.stat.n_page_gets++;

  const ulint fold= page_id.fold();
  page_hash_latch *hash_lock= buf_pool.page_hash.lock<false>(fold);
  buf_block_t *block= reinterpret_cast<buf_block_t*>
    (buf_pool.page_hash_get_low(page_id, fold));

  /* TODO: try to all this part of mtr_t::free() */
  if (srv_immediate_scrub_data_uncompressed || mtr->is_page_compressed())
    mtr->add_freed_offset(page_id);

  if (!block || block->page.state() != BUF_BLOCK_FILE_PAGE)
  {
    /* FIXME: if block!=NULL, convert to BUF_BLOCK_FILE_PAGE,
    but avoid buf_zip_decompress() */
    hash_lock->read_unlock();
    return;
  }


  buf_block_buf_fix_inc(block);
  ut_ad(block->page.buf_fix_count());

  mtr->memo_push(block, MTR_MEMO_PAGE_X_FIX);
  block->lock.x_lock();

  block->page.status= buf_page_t::FREED;
  hash_lock->read_unlock();
}

/** Get read access to a compressed page (usually of type
FIL_PAGE_TYPE_ZBLOB or FIL_PAGE_TYPE_ZBLOB2).
The page must be released with buf_page_release_zip().
NOTE: the page is not protected by any latch.  Mutual exclusion has to
be implemented at a higher level.  In other words, all possible
accesses to a given page through this function must be protected by
the same set of mutexes or latches.
@param[in]	page_id		page id
@param[in]	zip_size	ROW_FORMAT=COMPRESSED page size
@return pointer to the block */
buf_page_t* buf_page_get_zip(const page_id_t page_id, ulint zip_size)
{
  ut_ad(zip_size);
  ut_ad(ut_is_2pow(zip_size));
  buf_pool.stat.n_page_gets++;

  bool discard_attempted= false;
  const ulint fold= page_id.fold();
  buf_page_t *bpage;
  page_hash_latch *hash_lock;

  for (;;)
  {
lookup:
    bpage= buf_pool.page_hash_get_locked<false>(page_id, fold, &hash_lock);
    if (bpage)
      break;

    dberr_t err= buf_read_page(page_id, zip_size);

    if (UNIV_UNLIKELY(err != DB_SUCCESS))
    {
      ib::error() << "Reading compressed page " << page_id
                  << " failed with error: " << err;
      goto err_exit;
    }

#ifdef UNIV_DEBUG
    if (!(++buf_dbg_counter % 5771)) buf_pool.validate();
#endif /* UNIV_DEBUG */
  }

  ut_ad(hash_lock->is_read_locked());

  if (!bpage->zip.data)
  {
    /* There is no compressed page. */
err_exit:
    hash_lock->read_unlock();
    return nullptr;
  }

  ut_ad(!buf_pool.watch_is_sentinel(*bpage));

  switch (bpage->state()) {
  case BUF_BLOCK_FILE_PAGE:
    /* Discard the uncompressed page frame if possible. */
    if (!discard_attempted)
    {
      discard_attempted= true;
      hash_lock->read_unlock();
      mysql_mutex_lock(&buf_pool.mutex);
      if (buf_page_t *bpage= buf_pool.page_hash_get_low(page_id, fold))
        buf_LRU_free_page(bpage, false);
      mysql_mutex_unlock(&buf_pool.mutex);
      goto lookup;
    }
    /* fall through */
  case BUF_BLOCK_ZIP_PAGE:
    bpage->fix();
    goto got_block;
  default:
    break;
  }

  ut_error;
  goto err_exit;

got_block:
  bool must_read= bpage->io_fix() == BUF_IO_READ;
  hash_lock->read_unlock();

  DBUG_ASSERT(bpage->status != buf_page_t::FREED);

  bpage->set_accessed();
  buf_page_make_young_if_needed(bpage);

#ifdef UNIV_DEBUG
  if (!(++buf_dbg_counter % 5771)) buf_pool.validate();
#endif /* UNIV_DEBUG */
  ut_ad(bpage->buf_fix_count());
  ut_ad(bpage->in_file());

  if (must_read)
    /* Let us wait until the read operation completes */
    while (bpage->io_fix() == BUF_IO_READ)
      os_thread_sleep(WAIT_FOR_READ);

  return bpage;
}

/********************************************************************//**
Initialize some fields of a control block. */
UNIV_INLINE
void
buf_block_init_low(
/*===============*/
	buf_block_t*	block)	/*!< in: block to init */
{
#ifdef BTR_CUR_HASH_ADAPT
	/* No adaptive hash index entries may point to a previously
	unused (and now freshly allocated) block. */
	assert_block_ahi_empty_on_init(block);
	block->index		= NULL;

	block->n_hash_helps	= 0;
	block->n_fields		= 1;
	block->n_bytes		= 0;
	block->left_side	= TRUE;
#endif /* BTR_CUR_HASH_ADAPT */
}

/********************************************************************//**
Decompress a block.
@return TRUE if successful */
ibool
buf_zip_decompress(
/*===============*/
	buf_block_t*	block,	/*!< in/out: block */
	ibool		check)	/*!< in: TRUE=verify the page checksum */
{
	const byte*	frame = block->page.zip.data;
	ulint		size = page_zip_get_size(&block->page.zip);
	/* The tablespace will not be found if this function is called
	during IMPORT. */
	fil_space_t* space= fil_space_t::get(block->page.id().space());
	const unsigned key_version = mach_read_from_4(
		frame + FIL_PAGE_FILE_FLUSH_LSN_OR_KEY_VERSION);
	fil_space_crypt_t* crypt_data = space ? space->crypt_data : NULL;
	const bool encrypted = crypt_data
		&& crypt_data->type != CRYPT_SCHEME_UNENCRYPTED
		&& (!crypt_data->is_default_encryption()
		    || srv_encrypt_tables);

	ut_ad(block->zip_size());
	ut_a(block->page.id().space() != 0);

	if (UNIV_UNLIKELY(check && !page_zip_verify_checksum(frame, size))) {

		ib::error() << "Compressed page checksum mismatch for "
			<< (space ? space->chain.start->name : "")
			<< block->page.id() << ": stored: "
			<< mach_read_from_4(frame + FIL_PAGE_SPACE_OR_CHKSUM)
			<< ", crc32: "
			<< page_zip_calc_checksum(
				frame, size, SRV_CHECKSUM_ALGORITHM_CRC32)
			<< " innodb: "
			<< page_zip_calc_checksum(
				frame, size, SRV_CHECKSUM_ALGORITHM_INNODB)
			<< ", none: "
			<< page_zip_calc_checksum(
				frame, size, SRV_CHECKSUM_ALGORITHM_NONE)
			<< " (algorithm: " << srv_checksum_algorithm << ")";
		goto err_exit;
	}

	switch (fil_page_get_type(frame)) {
	case FIL_PAGE_INDEX:
	case FIL_PAGE_RTREE:
		if (page_zip_decompress(&block->page.zip,
					block->frame, TRUE)) {
			if (space) {
				space->release();
			}
			return(TRUE);
		}

		ib::error() << "Unable to decompress "
			<< (space ? space->chain.start->name : "")
			<< block->page.id();
		goto err_exit;
	case FIL_PAGE_TYPE_ALLOCATED:
	case FIL_PAGE_INODE:
	case FIL_PAGE_IBUF_BITMAP:
	case FIL_PAGE_TYPE_FSP_HDR:
	case FIL_PAGE_TYPE_XDES:
	case FIL_PAGE_TYPE_ZBLOB:
	case FIL_PAGE_TYPE_ZBLOB2:
		/* Copy to uncompressed storage. */
		memcpy(block->frame, frame, block->zip_size());
		if (space) {
			space->release();
		}

		return(TRUE);
	}

	ib::error() << "Unknown compressed page type "
		<< fil_page_get_type(frame)
		<< " in " << (space ? space->chain.start->name : "")
		<< block->page.id();

err_exit:
	if (encrypted) {
		ib::info() << "Row compressed page could be encrypted"
			" with key_version " << key_version;
	}

	if (space) {
		if (encrypted) {
			dict_set_encrypted_by_space(space);
		} else {
			dict_set_corrupted_by_space(space);
		}

		space->release();
	}

	return(FALSE);
}

/** Wait for the block to be read in.
@param[in]	block	The block to check */
static
void
buf_wait_for_read(
	buf_block_t*	block)
{
	/* Note:

	We are using the block->lock to check for IO state.
	We set the IO_READ state under the protection of the hash_lock.
	This is safe because another thread can only
	access the block (and check for IO state) after the block has been
	added to the page hashtable. */

	while (block->page.io_fix() == BUF_IO_READ) {
		block->lock.s_lock();
		block->lock.s_unlock();
	}
}

/** Low level function used to get access to a database page.
@param[in]	page_id			page id
@param[in]	zip_size		ROW_FORMAT=COMPRESSED page size, or 0
@param[in]	rw_latch		RW_S_LATCH, RW_X_LATCH, RW_NO_LATCH
@param[in]	guess			guessed block or NULL
@param[in]	mode			BUF_GET, BUF_GET_IF_IN_POOL,
BUF_PEEK_IF_IN_POOL, BUF_GET_NO_LATCH, or BUF_GET_IF_IN_POOL_OR_WATCH
@param[in]	mtr			mini-transaction
@param[out]	err			DB_SUCCESS or error code
@param[in]	allow_ibuf_merge	Allow change buffer merge to happen
while reading the page from file
then it makes sure that it does merging of change buffer changes while
reading the page from file.
@return pointer to the block or NULL */
buf_block_t*
buf_page_get_low(
	const page_id_t		page_id,
	ulint			zip_size,
	ulint			rw_latch,
	buf_block_t*		guess,
	ulint			mode,
	mtr_t*			mtr,
	dberr_t*		err,
	bool			allow_ibuf_merge)
{
	buf_block_t*	block;
	unsigned	access_time;
	ulint		retries = 0;
	const ulint	fold = page_id.fold();

	ut_ad((mtr == NULL) == (mode == BUF_EVICT_IF_IN_POOL));
	ut_ad(!mtr || mtr->is_active());
	ut_ad((rw_latch == RW_S_LATCH)
	      || (rw_latch == RW_X_LATCH)
	      || (rw_latch == RW_SX_LATCH)
	      || (rw_latch == RW_NO_LATCH));
	ut_ad(!allow_ibuf_merge
	      || mode == BUF_GET
	      || mode == BUF_GET_POSSIBLY_FREED
	      || mode == BUF_GET_IF_IN_POOL
	      || mode == BUF_GET_IF_IN_POOL_OR_WATCH);

	if (err) {
		*err = DB_SUCCESS;
	}

#ifdef UNIV_DEBUG
	switch (mode) {
	case BUF_EVICT_IF_IN_POOL:
		/* After DISCARD TABLESPACE, the tablespace would not exist,
		but in IMPORT TABLESPACE, PageConverter::operator() must
		replace any old pages, which were not evicted during DISCARD.
		Skip the assertion on space_page_size. */
		break;
	case BUF_PEEK_IF_IN_POOL:
	case BUF_GET_IF_IN_POOL:
		/* The caller may pass a dummy page size,
		because it does not really matter. */
		break;
	default:
		ut_error;
	case BUF_GET_POSSIBLY_FREED:
		break;
	case BUF_GET_NO_LATCH:
		ut_ad(rw_latch == RW_NO_LATCH);
		/* fall through */
	case BUF_GET:
	case BUF_GET_IF_IN_POOL_OR_WATCH:
		fil_space_t* s = fil_space_get(page_id.space());
		ut_ad(s);
		ut_ad(s->zip_size() == zip_size);
	}
#endif /* UNIV_DEBUG */

	ut_ad(!mtr || !ibuf_inside(mtr)
	      || ibuf_page_low(page_id, zip_size, FALSE, NULL));

	buf_pool.stat.n_page_gets++;
loop:
	buf_block_t* fix_block;
	block = guess;

	page_hash_latch* hash_lock = buf_pool.page_hash.lock<false>(fold);

	if (block) {

		/* If the guess is a compressed page descriptor that
		has been allocated by buf_page_alloc_descriptor(),
		it may have been freed by buf_relocate(). */

		if (!buf_pool.is_uncompressed(block)
		    || page_id != block->page.id()
		    || block->page.state() != BUF_BLOCK_FILE_PAGE) {
			/* Our guess was bogus or things have changed
			since. */
			guess = nullptr;
			goto lookup;
		} else {
			ut_ad(!block->page.in_zip_hash);
		}
	} else {
lookup:
		block = reinterpret_cast<buf_block_t*>(
			buf_pool.page_hash_get_low(page_id, fold));
	}

	if (!block || buf_pool.watch_is_sentinel(block->page)) {
		hash_lock->read_unlock();
		block = nullptr;
	}

	if (UNIV_UNLIKELY(!block)) {
		/* Page not in buf_pool: needs to be read from file */
		if (mode == BUF_GET_IF_IN_POOL_OR_WATCH) {
			hash_lock = buf_pool.page_hash.lock<true>(fold);

			if (buf_page_t *bpage= buf_pool.watch_set(
				    page_id, &hash_lock)) {
				/* We can release hash_lock after we
				increment the fix count to make
				sure that no state change takes place. */
				bpage->fix();
				hash_lock->write_unlock();
				block = reinterpret_cast<buf_block_t*>(bpage);
				fix_block = block;
				goto got_block;
			}

			hash_lock->write_unlock();
		}

		switch (mode) {
		case BUF_GET_IF_IN_POOL:
		case BUF_GET_IF_IN_POOL_OR_WATCH:
		case BUF_PEEK_IF_IN_POOL:
		case BUF_EVICT_IF_IN_POOL:
			return(NULL);
		}

		/* The call path is buf_read_page() ->
		buf_read_page_low() (fil_space_t::io()) ->
		buf_page_read_complete() ->
		buf_decrypt_after_read(). Here fil_space_t* is used
		and we decrypt -> buf_page_check_corrupt() where page
		checksums are compared. Decryption, decompression as
		well as error handling takes place at a lower level.
		Here we only need to know whether the page really is
		corrupted, or if an encrypted page with a valid
		checksum cannot be decypted. */

		dberr_t local_err = buf_read_page(page_id, zip_size);

		if (local_err == DB_SUCCESS) {
			buf_read_ahead_random(page_id, zip_size,
					      ibuf_inside(mtr));

			retries = 0;
		} else if (mode == BUF_GET_POSSIBLY_FREED) {
			if (err) {
				*err = local_err;
			}
			return NULL;
		} else if (retries < BUF_PAGE_READ_MAX_RETRIES) {
			++retries;

			DBUG_EXECUTE_IF(
				"innodb_page_corruption_retries",
				retries = BUF_PAGE_READ_MAX_RETRIES;
			);
		} else {
			if (err) {
				*err = local_err;
			}

			/* Pages whose encryption key is unavailable or used
			key, encryption algorithm or encryption method is
			incorrect are marked as encrypted in
			buf_page_check_corrupt(). Unencrypted page could be
			corrupted in a way where the key_id field is
			nonzero. There is no checksum on field
			FIL_PAGE_FILE_FLUSH_LSN_OR_KEY_VERSION. */
			if (local_err == DB_DECRYPTION_FAILED) {
				return (NULL);
			}

			if (local_err == DB_PAGE_CORRUPTED
			    && srv_force_recovery) {
				return NULL;
			}

			/* Try to set table as corrupted instead of
			asserting. */
			if (page_id.space() == TRX_SYS_SPACE) {
			} else if (page_id.space() == SRV_TMP_SPACE_ID) {
			} else if (fil_space_t* space= fil_space_t::get(
					   page_id.space())) {
				bool set = dict_set_corrupted_by_space(space);
				space->release();
				if (set) {
					return NULL;
				}
			}

			ib::fatal() << "Unable to read page " << page_id
				<< " into the buffer pool after "
				<< BUF_PAGE_READ_MAX_RETRIES
				<< ". The most probable cause"
				" of this error may be that the"
				" table has been corrupted."
				" See https://mariadb.com/kb/en/library/innodb-recovery-modes/";
		}

#ifdef UNIV_DEBUG
		if (!(++buf_dbg_counter % 5771)) buf_pool.validate();
#endif /* UNIV_DEBUG */
		goto loop;
	} else {
		fix_block = block;
	}

	fix_block->fix();
	hash_lock->read_unlock();

got_block:
	switch (mode) {
	default:
		ut_ad(block->zip_size() == zip_size);
		break;
	case BUF_GET_IF_IN_POOL:
	case BUF_PEEK_IF_IN_POOL:
	case BUF_EVICT_IF_IN_POOL:
		if (fix_block->page.io_fix() == BUF_IO_READ) {
			/* The page is being read to buffer pool,
			but we cannot wait around for the read to
			complete. */
			fix_block->unfix();
			return(NULL);
		}
	}

	switch (UNIV_EXPECT(fix_block->page.state(), BUF_BLOCK_FILE_PAGE)) {
	case BUF_BLOCK_FILE_PAGE:
		if (fsp_is_system_temporary(page_id.space())
		    && block->page.io_fix() != BUF_IO_NONE) {
			/* This suggests that the page is being flushed.
			Avoid returning reference to this page.
			Instead wait for the flush action to complete. */
			fix_block->unfix();
			os_thread_sleep(WAIT_FOR_WRITE);
			goto loop;
		}

		if (UNIV_UNLIKELY(mode == BUF_EVICT_IF_IN_POOL)) {
evict_from_pool:
			ut_ad(!fix_block->page.oldest_modification());
			mysql_mutex_lock(&buf_pool.mutex);
			fix_block->unfix();

			if (!buf_LRU_free_page(&fix_block->page, true)) {
				ut_ad(0);
			}

			mysql_mutex_unlock(&buf_pool.mutex);
			return(NULL);
		}

		break;
	default:
		ut_error;
		break;

	case BUF_BLOCK_ZIP_PAGE:
		if (UNIV_UNLIKELY(mode == BUF_EVICT_IF_IN_POOL)) {
			goto evict_from_pool;
		}

		if (mode == BUF_PEEK_IF_IN_POOL) {
			/* This mode is only used for dropping an
			adaptive hash index.  There cannot be an
			adaptive hash index for a compressed-only
			page, so do not bother decompressing the page. */
			fix_block->unfix();

			return(NULL);
		}

		buf_page_t* bpage = &block->page;

		/* Note: We have already buffer fixed this block. */
		if (bpage->buf_fix_count() > 1
		    || bpage->io_fix() != BUF_IO_NONE) {

			/* This condition often occurs when the buffer
			is not buffer-fixed, but I/O-fixed by
			buf_page_init_for_read(). */
			fix_block->unfix();

			/* The block is buffer-fixed or I/O-fixed.
			Try again later. */
			os_thread_sleep(WAIT_FOR_READ);

			goto loop;
		}

		/* Buffer-fix the block so that it cannot be evicted
		or relocated while we are attempting to allocate an
		uncompressed page. */

		block = buf_LRU_get_free_block(false);
		buf_block_init_low(block);

		mysql_mutex_lock(&buf_pool.mutex);
		hash_lock = buf_pool.page_hash.lock_get(fold);

		hash_lock->write_lock();

		/* Buffer-fixing prevents the page_hash from changing. */
		ut_ad(bpage == buf_pool.page_hash_get_low(page_id, fold));

		fix_block->unfix(); /* hash_lock protects us after this */

		if (bpage->buf_fix_count() || bpage->io_fix() != BUF_IO_NONE) {
			/* The block was buffer-fixed or I/O-fixed while
			buf_pool.mutex was not held by this thread.
			Free the block that was allocated and retry.
			This should be extremely unlikely, for example,
			if buf_page_get_zip() was invoked. */

			hash_lock->write_unlock();
			buf_LRU_block_free_non_file_page(block);
			mysql_mutex_unlock(&buf_pool.mutex);

			/* Try again */
			goto loop;
		}

		fix_block = block;

		/* Move the compressed page from bpage to block,
		and uncompress it. */

		/* Note: this is the uncompressed block and it is not
		accessible by other threads yet because it is not in
		any list or hash table */
		buf_relocate(bpage, &block->page);

		/* Set after buf_relocate(). */
		block->page.set_buf_fix_count(1);

		buf_flush_relocate_on_flush_list(bpage, &block->page);

		/* Buffer-fix, I/O-fix, and X-latch the block
		for the duration of the decompression.
		Also add the block to the unzip_LRU list. */
		block->page.set_state(BUF_BLOCK_FILE_PAGE);

		/* Insert at the front of unzip_LRU list */
		buf_unzip_LRU_add_block(block, FALSE);

		block->page.set_io_fix(BUF_IO_READ);
		block->lock.x_lock();

		MEM_UNDEFINED(bpage, sizeof *bpage);

		mysql_mutex_unlock(&buf_pool.mutex);
		hash_lock->write_unlock();
		buf_pool.n_pend_unzip++;

		access_time = block->page.is_accessed();

		if (!access_time && !recv_no_ibuf_operations
		    && ibuf_page_exists(block->page.id(), zip_size)) {
			block->page.ibuf_exist = true;
		}

		buf_page_free_descriptor(bpage);

		/* Decompress the page while not holding
		buf_pool.mutex. */

		if (!buf_zip_decompress(block, false)) {
			fix_block->lock.x_unlock();
			fix_block->page.io_unfix();
			fix_block->unfix();
			--buf_pool.n_pend_unzip;

			if (err) {
				*err = DB_PAGE_CORRUPTED;
			}
			return NULL;
		}

		block->lock.x_unlock();
		fix_block->page.io_unfix();
		--buf_pool.n_pend_unzip;
		break;
	}

	ut_ad(block == fix_block);
	ut_ad(fix_block->page.buf_fix_count());

	ut_ad(fix_block->page.state() == BUF_BLOCK_FILE_PAGE);

#if defined UNIV_DEBUG || defined UNIV_IBUF_DEBUG
re_evict:
	if (mode != BUF_GET_IF_IN_POOL
	    && mode != BUF_GET_IF_IN_POOL_OR_WATCH) {
	} else if (!ibuf_debug) {
	} else if (fil_space_t* space = fil_space_t::get(page_id.space())) {
		/* Try to evict the block from the buffer pool, to use the
		insert buffer (change buffer) as much as possible. */

		mysql_mutex_lock(&buf_pool.mutex);

		fix_block->unfix();

		/* Blocks cannot be relocated or enter or exit the
		buf_pool while we are holding the buf_pool.mutex. */
		const bool evicted = buf_LRU_free_page(&fix_block->page, true);
		space->release();

		if (evicted) {
			hash_lock = buf_pool.page_hash.lock_get(fold);
			hash_lock->write_lock();
			mysql_mutex_unlock(&buf_pool.mutex);
			/* We may set the watch, as it would have
			been set if the page were not in the
			buffer pool in the first place. */
			block= reinterpret_cast<buf_block_t*>(
				mode == BUF_GET_IF_IN_POOL_OR_WATCH
				? buf_pool.watch_set(page_id, &hash_lock)
				: buf_pool.page_hash_get_low(page_id, fold));
			hash_lock->write_unlock();

			if (block != NULL) {
				/* Either the page has been read in or
				a watch was set on that in the window
				where we released the buf_pool.mutex
				and before we acquire the hash_lock
				above. Try again. */
				guess = block;

				goto loop;
			}

			return(NULL);
		}

		fix_block->fix();
		mysql_mutex_unlock(&buf_pool.mutex);
		buf_flush_lists(ULINT_UNDEFINED, LSN_MAX);
		buf_flush_wait_batch_end_acquiring_mutex(false);

		if (!fix_block->page.oldest_modification()) {
			goto re_evict;
		}

		/* Failed to evict the page; change it directly */
	}
#endif /* UNIV_DEBUG || UNIV_IBUF_DEBUG */

	ut_ad(fix_block->page.buf_fix_count());

	/* While tablespace is reinited the indexes are already freed but the
	blocks related to it still resides in buffer pool. Trying to remove
	such blocks from buffer pool would invoke removal of AHI entries
	associated with these blocks. Logic to remove AHI entry will try to
	load the block but block is already in free state. Handle the said case
	with mode = BUF_PEEK_IF_IN_POOL that is invoked from
	"btr_search_drop_page_hash_when_freed". */
	ut_ad(mode == BUF_GET_POSSIBLY_FREED
	      || mode == BUF_PEEK_IF_IN_POOL
	      || fix_block->page.status != buf_page_t::FREED);

	const bool not_first_access = fix_block->page.set_accessed();

	if (mode != BUF_PEEK_IF_IN_POOL) {
		buf_page_make_young_if_needed(&fix_block->page);
	}

#ifdef UNIV_DEBUG
	if (!(++buf_dbg_counter % 5771)) buf_pool.validate();
#endif /* UNIV_DEBUG */
	ut_ad(fix_block->page.state() == BUF_BLOCK_FILE_PAGE);

	/* We have to wait here because the IO_READ state was set
	under the protection of the hash_lock and not block->lock. */
	buf_wait_for_read(fix_block);

	if (fix_block->page.id() != page_id) {
		buf_block_buf_fix_dec(fix_block);

		if (err) {
			*err = DB_PAGE_CORRUPTED;
		}

		return NULL;
	}

	if (fix_block->page.status != buf_page_t::FREED
	    && allow_ibuf_merge
	    && fil_page_get_type(fix_block->frame) == FIL_PAGE_INDEX
	    && page_is_leaf(fix_block->frame)) {
		fix_block->lock.x_lock();

		if (fix_block->page.ibuf_exist) {
			fix_block->page.ibuf_exist = false;
			ibuf_merge_or_delete_for_page(fix_block, page_id,
						      zip_size);
		}

		if (rw_latch == RW_X_LATCH) {
			mtr->memo_push(fix_block, MTR_MEMO_PAGE_X_FIX);
		} else {
			fix_block->lock.x_unlock();
			goto get_latch;
		}
	} else {
get_latch:
		mtr->page_lock(fix_block, rw_latch);
	}

	if (!not_first_access && mode != BUF_PEEK_IF_IN_POOL) {
		/* In the case of a first access, try to apply linear
		read-ahead */

		buf_read_ahead_linear(page_id, zip_size, ibuf_inside(mtr));
	}

	return(fix_block);
}

/** Get access to a database page. Buffered redo log may be applied.
@param[in]	page_id			page id
@param[in]	zip_size		ROW_FORMAT=COMPRESSED page size, or 0
@param[in]	rw_latch		RW_S_LATCH, RW_X_LATCH, RW_NO_LATCH
@param[in]	guess			guessed block or NULL
@param[in]	mode			BUF_GET, BUF_GET_IF_IN_POOL,
BUF_PEEK_IF_IN_POOL, BUF_GET_NO_LATCH, or BUF_GET_IF_IN_POOL_OR_WATCH
@param[in]	mtr			mini-transaction
@param[out]	err			DB_SUCCESS or error code
@param[in]	allow_ibuf_merge	Allow change buffer merge while
reading the pages from file.
@return pointer to the block or NULL */
buf_block_t*
buf_page_get_gen(
	const page_id_t		page_id,
	ulint			zip_size,
	ulint			rw_latch,
	buf_block_t*		guess,
	ulint			mode,
	mtr_t*			mtr,
	dberr_t*		err,
	bool			allow_ibuf_merge)
{
  if (buf_block_t *block= recv_sys.recover(page_id))
  {
    buf_block_buf_fix_inc(block);
    if (err)
      *err= DB_SUCCESS;
    const bool must_merge= allow_ibuf_merge &&
      ibuf_page_exists(page_id, block->zip_size());
    if (block->page.status == buf_page_t::FREED)
      ut_ad(mode == BUF_GET_POSSIBLY_FREED || mode == BUF_PEEK_IF_IN_POOL);
    else if (must_merge && fil_page_get_type(block->frame) == FIL_PAGE_INDEX &&
	     page_is_leaf(block->frame))
    {
      block->lock.x_lock();
      block->page.ibuf_exist= false;
      ibuf_merge_or_delete_for_page(block, page_id, block->zip_size());

      if (rw_latch == RW_X_LATCH)
      {
        mtr->memo_push(block, MTR_MEMO_PAGE_X_FIX);
	return block;
      }
      block->lock.x_unlock();
    }
    mtr->page_lock(block, rw_latch);
    return block;
  }

  return buf_page_get_low(page_id, zip_size, rw_latch,
                          guess, mode, mtr, err, allow_ibuf_merge);
}

/********************************************************************//**
This is the general function used to get optimistic access to a database
page.
@return TRUE if success */
ibool
buf_page_optimistic_get(
/*====================*/
	ulint		rw_latch,/*!< in: RW_S_LATCH, RW_X_LATCH */
	buf_block_t*	block,	/*!< in: guessed buffer block */
	ib_uint64_t	modify_clock,/*!< in: modify clock value */
	mtr_t*		mtr)	/*!< in: mini-transaction */
{
	ibool		success;

	ut_ad(block);
	ut_ad(mtr);
	ut_ad(mtr->is_active());
	ut_ad(rw_latch == RW_S_LATCH || rw_latch == RW_X_LATCH);

	if (UNIV_UNLIKELY(block->page.state() != BUF_BLOCK_FILE_PAGE
			  || block->page.io_fix() != BUF_IO_NONE)) {
		return FALSE;
	}

	const page_id_t id(block->page.id());

	page_hash_latch *hash_lock = buf_pool.hash_lock_get(id);
	hash_lock->read_lock();

	if (UNIV_UNLIKELY(id != block->page.id()
			  || block->page.state() != BUF_BLOCK_FILE_PAGE
			  || block->page.io_fix() != BUF_IO_NONE)) {
		hash_lock->read_unlock();
		return(FALSE);
	}

	buf_block_buf_fix_inc(block);
	hash_lock->read_unlock();

	block->page.set_accessed();

	buf_page_make_young_if_needed(&block->page);

	ut_ad(!ibuf_inside(mtr) || ibuf_page(id, block->zip_size(), NULL));

	mtr_memo_type_t	fix_type;

	if (rw_latch == RW_S_LATCH) {
		fix_type = MTR_MEMO_PAGE_S_FIX;
		success = block->lock.s_lock_try();
	} else if (block->lock.have_u_not_x()) {
		block->lock.u_x_upgrade();
		mtr->page_lock_upgrade(*block);
		ut_ad(id == block->page.id());
		ut_ad(modify_clock == block->modify_clock);
		buf_block_buf_fix_dec(block);
		goto func_exit;
	} else {
		fix_type = MTR_MEMO_PAGE_X_FIX;
		success = block->lock.x_lock_try();
	}

	ut_ad(id == block->page.id());

	if (!success) {
		buf_block_buf_fix_dec(block);
		return(FALSE);
	}

	if (modify_clock != block->modify_clock) {
		if (rw_latch == RW_S_LATCH) {
			block->lock.s_unlock();
		} else {
			block->lock.x_unlock();
		}

		buf_block_buf_fix_dec(block);
		return(FALSE);
	}

	mtr_memo_push(mtr, block, fix_type);
func_exit:
#ifdef UNIV_DEBUG
	if (!(++buf_dbg_counter % 5771)) buf_pool.validate();
#endif /* UNIV_DEBUG */
	ut_ad(block->page.buf_fix_count());
	ut_ad(block->page.state() == BUF_BLOCK_FILE_PAGE);

	buf_pool.stat.n_page_gets++;

	return(TRUE);
}

/** Given a tablespace id and page number tries to get that page. If the
page is not in the buffer pool it is not loaded and NULL is returned.
Suitable for using when holding the lock_sys_t::mutex.
@param[in]	page_id	page id
@param[in]	mtr	mini-transaction
@return pointer to a page or NULL */
buf_block_t* buf_page_try_get(const page_id_t page_id, mtr_t *mtr)
{
  ut_ad(mtr);
  ut_ad(mtr->is_active());

  page_hash_latch *hash_lock;
  buf_page_t *bpage= buf_pool.page_hash_get_locked<false>(page_id,
                                                          page_id.fold(),
                                                          &hash_lock);
  if (!bpage)
    return nullptr;
  if (bpage->state() != BUF_BLOCK_FILE_PAGE)
  {
    hash_lock->read_unlock();
    return nullptr;
  }

  buf_block_t *block= reinterpret_cast<buf_block_t*>(bpage);
  buf_block_buf_fix_inc(block);
  hash_lock->read_unlock();

  /* We will always try to acquire an U latch.
  In lock_rec_print() we may already be holding an S latch on the page,
  and recursive S latch acquisition is not allowed. */
  if (!block->lock.u_lock_try(false))
  {
    buf_block_buf_fix_dec(block);
    return nullptr;
  }

  mtr_memo_push(mtr, block, MTR_MEMO_PAGE_SX_FIX);

#ifdef UNIV_DEBUG
  if (!(++buf_dbg_counter % 5771)) buf_pool.validate();
#endif /* UNIV_DEBUG */
  ut_ad(bpage->buf_fix_count());
  ut_ad(bpage->state() == BUF_BLOCK_FILE_PAGE);
  ut_ad(bpage->id() == page_id);

  buf_pool.stat.n_page_gets++;
  return block;
}

/** Initialize the block.
@param page_id  page identifier
@param zip_size ROW_FORMAT=COMPRESSED page size, or 0
@param fix      initial buf_fix_count() */
void buf_block_t::initialise(const page_id_t page_id, ulint zip_size,
                             uint32_t fix)
{
  ut_ad(page.state() != BUF_BLOCK_FILE_PAGE);
  buf_block_init_low(this);
  page.init(page_id, fix);
  page_zip_set_size(&page.zip, zip_size);
}

/** Initialize a page in the buffer pool. The page is usually not read
from a file even if it cannot be found in the buffer buf_pool. This is one
of the functions which perform to a block a state transition NOT_USED =>
FILE_PAGE (the other is buf_page_get_gen).
@param[in,out]	space		space object
@param[in]	offset		offset of the tablespace
@param[in]	zip_size	ROW_FORMAT=COMPRESSED page size, or 0
@param[in,out]	mtr		mini-transaction
@param[in,out]	free_block	pre-allocated buffer block
@return pointer to the block, page bufferfixed */
buf_block_t*
buf_page_create(fil_space_t *space, uint32_t offset,
                ulint zip_size, mtr_t *mtr, buf_block_t *free_block)
{
  page_id_t page_id(space->id, offset);
  ut_ad(mtr->is_active());
  ut_ad(page_id.space() != 0 || !zip_size);

  space->free_page(offset, false);
  free_block->initialise(page_id, zip_size, 1);

  const ulint fold= page_id.fold();
  mysql_mutex_lock(&buf_pool.mutex);

loop:
  buf_block_t *block= reinterpret_cast<buf_block_t*>
    (buf_pool.page_hash_get_low(page_id, fold));

  if (block && block->page.in_file() &&
      !buf_pool.watch_is_sentinel(block->page))
  {
#ifdef BTR_CUR_HASH_ADAPT
    const dict_index_t *drop_hash_entry= nullptr;
#endif
    switch (UNIV_EXPECT(block->page.state(), BUF_BLOCK_FILE_PAGE)) {
    default:
      ut_ad(0);
      break;
    case BUF_BLOCK_FILE_PAGE:
      if (!mtr->have_x_latch(*block))
      {
        buf_block_buf_fix_inc(block);
        while (!block->lock.x_lock_try())
        {
          /* Wait for buf_page_write_complete() to release block->lock.
          We must not hold buf_pool.mutex while waiting. */
          timespec abstime;
          set_timespec_nsec(abstime, 1000000);
          mysql_cond_timedwait(&buf_pool.done_flush_list, &buf_pool.mutex,
                               &abstime);
        }
        mtr_memo_push(mtr, block, MTR_MEMO_PAGE_X_FIX);
      }
      else
      {
        ut_ad(!block->page.ibuf_exist);
#ifdef BTR_CUR_HASH_ADAPT
        ut_ad(!block->index);
#endif
      }
#ifdef BTR_CUR_HASH_ADAPT
      drop_hash_entry= block->index;
#endif
      break;
    case BUF_BLOCK_ZIP_PAGE:
      page_hash_latch *hash_lock= buf_pool.page_hash.lock_get(fold);
      hash_lock->write_lock();
      if (block->page.io_fix() != BUF_IO_NONE)
      {
        hash_lock->write_unlock();
        /* Wait for buf_page_write_complete() to release the I/O fix. */
        timespec abstime;
        set_timespec_nsec(abstime, 1000000);
        mysql_cond_timedwait(&buf_pool.done_flush_list, &buf_pool.mutex,
                             &abstime);
        goto loop;
      }

      free_block->lock.x_lock();
      buf_relocate(&block->page, &free_block->page);
      buf_flush_relocate_on_flush_list(&block->page, &free_block->page);

      free_block->page.set_state(BUF_BLOCK_FILE_PAGE);
      buf_unzip_LRU_add_block(free_block, FALSE);
      hash_lock->write_unlock();
      buf_page_free_descriptor(&block->page);
      block= free_block;
      buf_block_buf_fix_inc(block);
      mtr_memo_push(mtr, block, MTR_MEMO_PAGE_X_FIX);
      break;
    }

    mysql_mutex_unlock(&buf_pool.mutex);

#ifdef BTR_CUR_HASH_ADAPT
    if (drop_hash_entry)
      btr_search_drop_page_hash_index(block);
#endif /* BTR_CUR_HASH_ADAPT */

    if (block->page.ibuf_exist)
    {
      if (!recv_recovery_is_on())
        ibuf_merge_or_delete_for_page(nullptr, page_id, zip_size);
      block->page.ibuf_exist= false;
    }

    return block;
  }

  /* If we get here, the page was not in buf_pool: init it there */

  DBUG_PRINT("ib_buf", ("create page %u:%u",
                        page_id.space(), page_id.page_no()));

  block= free_block;

  ut_ad(block->page.buf_fix_count() == 1);

  /* The block must be put to the LRU list */
  buf_LRU_add_block(&block->page, false);
  page_hash_latch *hash_lock= buf_pool.page_hash.lock_get(fold);
  hash_lock->write_lock();
  block->page.set_state(BUF_BLOCK_FILE_PAGE);
  ut_d(block->page.in_page_hash= true);
  HASH_INSERT(buf_page_t, hash, &buf_pool.page_hash, fold, &block->page);

  block->lock.x_lock();
  if (UNIV_UNLIKELY(zip_size))
  {
    /* Prevent race conditions during buf_buddy_alloc(), which may
    release and reacquire buf_pool.mutex, by IO-fixing and X-latching
    the block. */
    block->page.set_io_fix(BUF_IO_READ);
    hash_lock->write_unlock();

    /* buf_pool.mutex may be released and reacquired by
    buf_buddy_alloc(). We must defer this operation until
    after the block descriptor has been added to
    buf_pool.LRU and buf_pool.page_hash. */
    block->page.zip.data= buf_buddy_alloc(zip_size);

    /* To maintain the invariant block->in_unzip_LRU_list ==
    block->page.belongs_to_unzip_LRU() we have to add this
    block to unzip_LRU after block->page.zip.data is set. */
    ut_ad(block->page.belongs_to_unzip_LRU());
    buf_unzip_LRU_add_block(block, FALSE);

    block->page.set_io_fix(BUF_IO_NONE);
  }
  else
    hash_lock->write_unlock();

  mysql_mutex_unlock(&buf_pool.mutex);

  mtr->memo_push(block, MTR_MEMO_PAGE_X_FIX);
  block->page.set_accessed();
  buf_pool.stat.n_pages_created++;

  /* Delete possible entries for the page from the insert buffer:
  such can exist if the page belonged to an index which was dropped */
  if (!recv_recovery_is_on())
    ibuf_merge_or_delete_for_page(nullptr, page_id, zip_size);

  static_assert(FIL_PAGE_PREV + 4 == FIL_PAGE_NEXT, "adjacent");
  memset_aligned<8>(block->frame + FIL_PAGE_PREV, 0xff, 8);
  mach_write_to_2(block->frame + FIL_PAGE_TYPE, FIL_PAGE_TYPE_ALLOCATED);

  /* FIL_PAGE_FILE_FLUSH_LSN_OR_KEY_VERSION is only used on the
  following pages:
  (1) The first page of the InnoDB system tablespace (page 0:0)
  (2) FIL_RTREE_SPLIT_SEQ_NUM on R-tree pages
  (3) key_version on encrypted pages (not page 0:0) */

  memset(block->frame + FIL_PAGE_FILE_FLUSH_LSN_OR_KEY_VERSION, 0, 8);
  memset_aligned<8>(block->frame + FIL_PAGE_LSN, 0, 8);

#ifdef UNIV_DEBUG
  if (!(++buf_dbg_counter % 5771)) buf_pool.validate();
#endif /* UNIV_DEBUG */
  return block;
}

/** Monitor the buffer page read/write activity, and increment corresponding
counter value in MONITOR_MODULE_BUF_PAGE.
@param bpage   buffer page whose read or write was completed
@param io_type BUF_IO_READ or BUF_IO_WRITE */
ATTRIBUTE_COLD __attribute__((nonnull))
void buf_page_monitor(const buf_page_t *bpage, buf_io_fix io_type)
{
	const byte*	frame;
	monitor_id_t	counter;

	ut_ad(io_type == BUF_IO_READ || io_type == BUF_IO_WRITE);

	frame = bpage->zip.data
		? bpage->zip.data
		: ((buf_block_t*) bpage)->frame;

	switch (fil_page_get_type(frame)) {
		ulint	level;
	case FIL_PAGE_TYPE_INSTANT:
	case FIL_PAGE_INDEX:
	case FIL_PAGE_RTREE:
		level = btr_page_get_level(frame);

		/* Check if it is an index page for insert buffer */
		if (fil_page_get_type(frame) == FIL_PAGE_INDEX
		    && btr_page_get_index_id(frame)
		    == (index_id_t)(DICT_IBUF_ID_MIN + IBUF_SPACE_ID)) {
			if (level == 0) {
				counter = MONITOR_RW_COUNTER(
					io_type, MONITOR_INDEX_IBUF_LEAF_PAGE);
			} else {
				counter = MONITOR_RW_COUNTER(
					io_type,
					MONITOR_INDEX_IBUF_NON_LEAF_PAGE);
			}
		} else {
			if (level == 0) {
				counter = MONITOR_RW_COUNTER(
					io_type, MONITOR_INDEX_LEAF_PAGE);
			} else {
				counter = MONITOR_RW_COUNTER(
					io_type, MONITOR_INDEX_NON_LEAF_PAGE);
			}
		}
		break;

	case FIL_PAGE_UNDO_LOG:
		counter = MONITOR_RW_COUNTER(io_type, MONITOR_UNDO_LOG_PAGE);
		break;

	case FIL_PAGE_INODE:
		counter = MONITOR_RW_COUNTER(io_type, MONITOR_INODE_PAGE);
		break;

	case FIL_PAGE_IBUF_FREE_LIST:
		counter = MONITOR_RW_COUNTER(io_type,
					     MONITOR_IBUF_FREELIST_PAGE);
		break;

	case FIL_PAGE_IBUF_BITMAP:
		counter = MONITOR_RW_COUNTER(io_type,
					     MONITOR_IBUF_BITMAP_PAGE);
		break;

	case FIL_PAGE_TYPE_SYS:
		counter = MONITOR_RW_COUNTER(io_type, MONITOR_SYSTEM_PAGE);
		break;

	case FIL_PAGE_TYPE_TRX_SYS:
		counter = MONITOR_RW_COUNTER(io_type, MONITOR_TRX_SYSTEM_PAGE);
		break;

	case FIL_PAGE_TYPE_FSP_HDR:
		counter = MONITOR_RW_COUNTER(io_type, MONITOR_FSP_HDR_PAGE);
		break;

	case FIL_PAGE_TYPE_XDES:
		counter = MONITOR_RW_COUNTER(io_type, MONITOR_XDES_PAGE);
		break;

	case FIL_PAGE_TYPE_BLOB:
		counter = MONITOR_RW_COUNTER(io_type, MONITOR_BLOB_PAGE);
		break;

	case FIL_PAGE_TYPE_ZBLOB:
		counter = MONITOR_RW_COUNTER(io_type, MONITOR_ZBLOB_PAGE);
		break;

	case FIL_PAGE_TYPE_ZBLOB2:
		counter = MONITOR_RW_COUNTER(io_type, MONITOR_ZBLOB2_PAGE);
		break;

	default:
		counter = MONITOR_RW_COUNTER(io_type, MONITOR_OTHER_PAGE);
	}

	MONITOR_INC_NOCHECK(counter);
}

/** Mark a table corrupted.
@param[in]	bpage	corrupted page
@param[in]	space	tablespace of the corrupted page */
ATTRIBUTE_COLD
static void buf_mark_space_corrupt(buf_page_t* bpage, const fil_space_t& space)
{
	/* If block is not encrypted find the table with specified
	space id, and mark it corrupted. Encrypted tables
	are marked unusable later e.g. in ::open(). */
	if (!space.crypt_data
	    || space.crypt_data->type == CRYPT_SCHEME_UNENCRYPTED) {
		dict_set_corrupted_by_space(&space);
	} else {
		dict_set_encrypted_by_space(&space);
	}
}

/** Release and evict a corrupted page.
@param bpage    page that was being read */
ATTRIBUTE_COLD void buf_pool_t::corrupted_evict(buf_page_t *bpage)
{
  const page_id_t id(bpage->id());
  page_hash_latch *hash_lock= hash_lock_get(id);

  mysql_mutex_lock(&mutex);
  hash_lock->write_lock();

  ut_ad(bpage->io_fix() == BUF_IO_READ);
  ut_ad(!bpage->oldest_modification());
  bpage->set_corrupt_id();

  if (bpage->state() == BUF_BLOCK_FILE_PAGE)
    reinterpret_cast<buf_block_t*>(bpage)->lock.x_unlock(true);
  bpage->io_unfix();

  /* remove from LRU and page_hash */
  buf_LRU_free_one_page(bpage, id, hash_lock);
  mysql_mutex_unlock(&mutex);

  ut_d(auto n=) n_pend_reads--;
  ut_ad(n > 0);
}

/** Mark a table corrupted.
@param[in]	bpage	Corrupted page
@param[in]	node	data file
Also remove the bpage from LRU list. */
ATTRIBUTE_COLD
static void buf_corrupt_page_release(buf_page_t *bpage, const fil_node_t &node)
{
  ut_ad(bpage->id().space() == node.space->id);
  buf_pool.corrupted_evict(bpage);

  if (!srv_force_recovery)
    buf_mark_space_corrupt(bpage, *node.space);
}

/** Check if the encrypted page is corrupted for the full crc32 format.
@param[in]	space_id	page belongs to space id
@param[in]	d		page
@param[in]	is_compressed	compressed page
@return true if page is corrupted or false if it isn't */
static bool buf_page_full_crc32_is_corrupted(ulint space_id, const byte* d,
                                             bool is_compressed)
{
  if (space_id != mach_read_from_4(d + FIL_PAGE_SPACE_ID))
    return true;

  static_assert(FIL_PAGE_LSN % 4 == 0, "alignment");
  static_assert(FIL_PAGE_FCRC32_END_LSN % 4 == 0, "alignment");

  return !is_compressed &&
    memcmp_aligned<4>(FIL_PAGE_LSN + 4 + d,
                      d + srv_page_size - FIL_PAGE_FCRC32_END_LSN, 4);
}

/** Check if page is maybe compressed, encrypted or both when we encounter
corrupted page. Note that we can't be 100% sure if page is corrupted
or decrypt/decompress just failed.
@param[in,out]	bpage		page
@param[in]	node		data file
@return	whether the operation succeeded
@retval	DB_SUCCESS		if page has been read and is not corrupted
@retval	DB_PAGE_CORRUPTED	if page based on checksum check is corrupted
@retval	DB_DECRYPTION_FAILED	if page post encryption checksum matches but
after decryption normal page checksum does not match.
@retval	DB_TABLESPACE_DELETED	if accessed tablespace is not found */
static dberr_t buf_page_check_corrupt(buf_page_t *bpage,
                                      const fil_node_t &node)
{
	ut_ad(node.space->referenced());

	byte* dst_frame = (bpage->zip.data) ? bpage->zip.data :
		((buf_block_t*) bpage)->frame;
	dberr_t err = DB_SUCCESS;
	uint key_version = buf_page_get_key_version(dst_frame,
						    node.space->flags);

	/* In buf_decrypt_after_read we have either decrypted the page if
	page post encryption checksum matches and used key_id is found
	from the encryption plugin. If checksum did not match page was
	not decrypted and it could be either encrypted and corrupted
	or corrupted or good page. If we decrypted, there page could
	still be corrupted if used key does not match. */
	const bool seems_encrypted = !node.space->full_crc32() && key_version
		&& node.space->crypt_data
		&& node.space->crypt_data->type != CRYPT_SCHEME_UNENCRYPTED;
	ut_ad(node.space->purpose != FIL_TYPE_TEMPORARY ||
	      node.space->full_crc32());

	/* If traditional checksums match, we assume that page is
	not anymore encrypted. */
	if (node.space->full_crc32()
	    && !buf_is_zeroes(span<const byte>(dst_frame,
					       node.space->physical_size()))
	    && (key_version || node.space->is_compressed()
		|| node.space->purpose == FIL_TYPE_TEMPORARY)) {
		if (buf_page_full_crc32_is_corrupted(
			    bpage->id().space(), dst_frame,
			    node.space->is_compressed())) {
			err = DB_PAGE_CORRUPTED;
		}
	} else if (buf_page_is_corrupted(true, dst_frame, node.space->flags)) {
		err = DB_PAGE_CORRUPTED;
	}

	if (seems_encrypted && err == DB_PAGE_CORRUPTED
	    && bpage->id().page_no() != 0) {
		err = DB_DECRYPTION_FAILED;

		ib::error()
			<< "The page " << bpage->id()
			<< " in file '" << node.name
			<< "' cannot be decrypted.";

		ib::info()
			<< "However key management plugin or used key_version "
			<< key_version
			<< " is not found or"
			" used encryption algorithm or method does not match.";

		if (bpage->id().space() != TRX_SYS_SPACE) {
			ib::info()
				<< "Marking tablespace as missing."
				" You may drop this table or"
				" install correct key management plugin"
				" and key file.";
		}
	}

	return (err);
}

/** Complete a read request of a file page to buf_pool.
@param bpage    recently read page
@param node     data file
@return whether the operation succeeded
@retval DB_SUCCESS              always when writing, or if a read page was OK
@retval DB_PAGE_CORRUPTED       if the checksum fails on a page read
@retval DB_DECRYPTION_FAILED    if the page cannot be decrypted */
dberr_t buf_page_read_complete(buf_page_t *bpage, const fil_node_t &node)
{
  const page_id_t id(bpage->id());
  ut_ad(bpage->in_file());
  ut_ad(!buf_dblwr.is_inside(id));
  ut_ad(id.space() == node.space->id);
  ut_ad(bpage->zip_size() == node.space->zip_size());

  /* We do not need protect io_fix here by mutex to read it because
  this and buf_page_write_complete() are the only functions where we can
  change the value from BUF_IO_READ or BUF_IO_WRITE to some other
  value, and our code ensures that this is the only thread that handles
  the i/o for this block. */

  ut_ad(bpage->io_fix() == BUF_IO_READ);
  ut_ad(!!bpage->zip.ssize == !!bpage->zip.data);
  ut_ad(bpage->state() == BUF_BLOCK_FILE_PAGE || bpage->zip.data);

  const byte *frame= bpage->zip.data
    ? bpage->zip.data
    : reinterpret_cast<buf_block_t*>(bpage)->frame;
  ut_ad(frame);

  dberr_t err;
  if (!buf_page_decrypt_after_read(bpage, node))
  {
    err= DB_DECRYPTION_FAILED;
    goto database_corrupted;
  }

  if (bpage->zip.data && bpage->state() == BUF_BLOCK_FILE_PAGE)
  {
    buf_pool.n_pend_unzip++;
    auto ok= buf_zip_decompress(reinterpret_cast<buf_block_t*>(bpage), FALSE);
    buf_pool.n_pend_unzip--;

    if (!ok)
    {
      ib::info() << "Page " << id << " zip_decompress failure.";
      err= DB_PAGE_CORRUPTED;
      goto database_corrupted;
    }
  }

  {
    const page_id_t read_id(mach_read_from_4(frame + FIL_PAGE_SPACE_ID),
                            mach_read_from_4(frame + FIL_PAGE_OFFSET));

    if (read_id == id);
    else if (read_id == page_id_t(0, 0))
      /* This is likely an uninitialized page. */;
    else if (!node.space->full_crc32() &&
             page_id_t(0, read_id.page_no()) == id)
      /* FIL_PAGE_SPACE_ID was written as garbage in the system tablespace
      before MySQL 4.1.1, which introduced innodb_file_per_table. */;
    else if (node.space->full_crc32() &&
             *reinterpret_cast<const uint32_t*>
             (&frame[FIL_PAGE_FCRC32_KEY_VERSION]) &&
             node.space->crypt_data &&
             node.space->crypt_data->type != CRYPT_SCHEME_UNENCRYPTED)
    {
      ib::error() << "Cannot decrypt " << id;
      err= DB_DECRYPTION_FAILED;
      goto release_page;
    }
    else
      ib::error() << "Space id and page no stored in the page, read in are "
                  << read_id << ", should be " << id;
  }

  err= buf_page_check_corrupt(bpage, node);
  if (UNIV_UNLIKELY(err != DB_SUCCESS))
  {
database_corrupted:
    /* Not a real corruption if it was triggered by error injection */
    DBUG_EXECUTE_IF("buf_page_import_corrupt_failure",
                    if (!is_predefined_tablespace(id.space()))
                    {
                      buf_corrupt_page_release(bpage, node);
                      ib::info() << "Simulated IMPORT corruption";
                      return err;
                    }
                    err= DB_SUCCESS;
                    goto page_not_corrupt;);

    if (bpage->zip.data && bpage->state() == BUF_BLOCK_FILE_PAGE)
      memset(reinterpret_cast<buf_block_t*>(bpage)->frame, 0, srv_page_size);

    if (err == DB_PAGE_CORRUPTED)
    {
      ib::error() << "Database page corruption on disk"
                     " or a failed read of file '"
                  << node.name << "' page " << id
                  << ". You may have to recover from a backup.";

      buf_page_print(frame, bpage->zip_size());

      ib::info() << " You can use CHECK TABLE to scan"
                    " your table for corruption. "
                 << FORCE_RECOVERY_MSG;
    }

    if (!srv_force_recovery)
    {
      /* If the corruption is in the system tablespace, we will
      intentionally crash the server. */
      if (id.space() == TRX_SYS_SPACE)
        ib::fatal() << "Aborting because of a corrupt database page.";
      buf_corrupt_page_release(bpage, node);
      return err;
    }
  }

  DBUG_EXECUTE_IF("buf_page_import_corrupt_failure",
                  page_not_corrupt: bpage= bpage; );

  if (err == DB_PAGE_CORRUPTED || err == DB_DECRYPTION_FAILED)
  {
release_page:
    buf_corrupt_page_release(bpage, node);
    if (recv_recovery_is_on())
      recv_sys.free_corrupted_page(id);
    return err;
  }

  if (recv_recovery_is_on())
    recv_recover_page(node.space, bpage);

  if (bpage->state() == BUF_BLOCK_FILE_PAGE && !recv_no_ibuf_operations &&
      (!id.space() || !is_predefined_tablespace(id.space())) &&
      fil_page_get_type(frame) == FIL_PAGE_INDEX &&
      page_is_leaf(frame))
    bpage->ibuf_exist= true;

  if (UNIV_UNLIKELY(MONITOR_IS_ON(MONITOR_MODULE_BUF_PAGE)))
    buf_page_monitor(bpage, BUF_IO_READ);
  DBUG_PRINT("ib_buf", ("read page %u:%u",
                        id.space(), id.page_no()));

  /* Because this thread which does the unlocking might not be the same that
  did the locking, we use a pass value != 0 in unlock, which simply
  removes the newest lock debug record, without checking the thread id. */
  if (bpage->state() == BUF_BLOCK_FILE_PAGE)
  {
    buf_block_t *block= reinterpret_cast<buf_block_t*>(bpage);
    block->lock.x_unlock(true);
  }
  bpage->io_unfix();

  ut_d(auto n=) buf_pool.n_pend_reads--;
  ut_ad(n > 0);
  buf_pool.stat.n_pages_read++;

  return DB_SUCCESS;
}

#ifdef UNIV_DEBUG
/** Check that all blocks are in a replaceable state.
@return address of a non-free block
@retval nullptr if all freed */
void buf_pool_t::assert_all_freed()
{
  mysql_mutex_lock(&mutex);
  const chunk_t *chunk= chunks;
  for (auto i= n_chunks; i--; chunk++)
    if (const buf_block_t* block= chunk->not_freed())
      ib::fatal() << "Page " << block->page.id() << " still fixed or dirty";
  mysql_mutex_unlock(&mutex);
}
#endif /* UNIV_DEBUG */

/** Refresh the statistics used to print per-second averages. */
void buf_refresh_io_stats()
{
	buf_pool.last_printout_time = time(NULL);
	buf_pool.old_stat = buf_pool.stat;
}

/** Invalidate all pages in the buffer pool.
All pages must be in a replaceable state (not modified or latched). */
void buf_pool_invalidate()
{
	mysql_mutex_lock(&buf_pool.mutex);

	buf_flush_wait_batch_end(true);
	buf_flush_wait_batch_end(false);

	/* It is possible that a write batch that has been posted
	earlier is still not complete. For buffer pool invalidation to
	proceed we must ensure there is NO write activity happening. */

	ut_d(mysql_mutex_unlock(&buf_pool.mutex));
	ut_d(buf_pool.assert_all_freed());
	ut_d(mysql_mutex_lock(&buf_pool.mutex));

	while (buf_LRU_scan_and_free_block());

	ut_ad(UT_LIST_GET_LEN(buf_pool.LRU) == 0);
	ut_ad(UT_LIST_GET_LEN(buf_pool.unzip_LRU) == 0);

	buf_pool.freed_page_clock = 0;
	buf_pool.LRU_old = NULL;
	buf_pool.LRU_old_len = 0;

	memset(&buf_pool.stat, 0x00, sizeof(buf_pool.stat));
	buf_refresh_io_stats();
	mysql_mutex_unlock(&buf_pool.mutex);
}

#ifdef UNIV_DEBUG
/** Validate the buffer pool. */
void buf_pool_t::validate()
{
	ulint		n_lru		= 0;
	ulint		n_flushing	= 0;
	ulint		n_free		= 0;
	ulint		n_zip		= 0;

	mysql_mutex_lock(&mutex);

	chunk_t* chunk = chunks;

	/* Check the uncompressed blocks. */

	for (auto i = n_chunks; i--; chunk++) {

		ulint		j;
		buf_block_t*	block = chunk->blocks;

		for (j = chunk->size; j--; block++) {
			switch (block->page.state()) {
			case BUF_BLOCK_ZIP_PAGE:
				/* This kind of block descriptors should
				be allocated by malloc() only. */
				ut_error;
				break;

			case BUF_BLOCK_NOT_USED:
				n_free++;
				break;

			case BUF_BLOCK_MEMORY:
			case BUF_BLOCK_REMOVE_HASH:
				/* do nothing */
				break;

			case BUF_BLOCK_FILE_PAGE:
				const page_id_t id = block->page.id();
				ut_ad(page_hash_get_low(id, id.fold())
				      == &block->page);
				n_lru++;
				break;

			}
		}
	}

	/* Check dirty blocks. */

	mysql_mutex_lock(&flush_list_mutex);
	for (buf_page_t* b = UT_LIST_GET_FIRST(flush_list); b;
	     b = UT_LIST_GET_NEXT(list, b)) {
		ut_ad(b->oldest_modification());
		ut_ad(!fsp_is_system_temporary(b->id().space()));
		n_flushing++;

		switch (b->state()) {
		case BUF_BLOCK_ZIP_PAGE:
			n_lru++;
			n_zip++;
			break;
		case BUF_BLOCK_FILE_PAGE:
			/* uncompressed page */
			break;
		case BUF_BLOCK_NOT_USED:
		case BUF_BLOCK_MEMORY:
		case BUF_BLOCK_REMOVE_HASH:
			ut_error;
			break;
		}
		const page_id_t id = b->id();
		ut_ad(page_hash_get_low(id, id.fold()) == b);
	}

	ut_ad(UT_LIST_GET_LEN(flush_list) == n_flushing);

	mysql_mutex_unlock(&flush_list_mutex);

	if (curr_size == old_size
	    && n_lru + n_free > curr_size + n_zip) {

		ib::fatal() << "n_LRU " << n_lru << ", n_free " << n_free
			<< ", pool " << curr_size
			<< " zip " << n_zip << ". Aborting...";
	}

	ut_ad(UT_LIST_GET_LEN(LRU) >= n_lru);

	if (curr_size == old_size
	    && UT_LIST_GET_LEN(free) != n_free) {

		ib::fatal() << "Free list len "
			<< UT_LIST_GET_LEN(free)
			<< ", free blocks " << n_free << ". Aborting...";
	}

	mysql_mutex_unlock(&mutex);

	ut_d(buf_LRU_validate());
	ut_d(buf_flush_validate());
}
#endif /* UNIV_DEBUG */

#if defined UNIV_DEBUG_PRINT || defined UNIV_DEBUG
/** Write information of the buf_pool to the error log. */
void buf_pool_t::print()
{
	index_id_t*	index_ids;
	ulint*		counts;
	ulint		size;
	ulint		i;
	ulint		j;
	index_id_t	id;
	ulint		n_found;
	chunk_t*	chunk;
	dict_index_t*	index;

	size = curr_size;

	index_ids = static_cast<index_id_t*>(
		ut_malloc_nokey(size * sizeof *index_ids));

	counts = static_cast<ulint*>(ut_malloc_nokey(sizeof(ulint) * size));

	mysql_mutex_lock(&mutex);
	mysql_mutex_lock(&flush_list_mutex);

	ib::info()
		<< "[buffer pool: size=" << curr_size
		<< ", database pages=" << UT_LIST_GET_LEN(LRU)
		<< ", free pages=" << UT_LIST_GET_LEN(free)
		<< ", modified database pages="
		<< UT_LIST_GET_LEN(flush_list)
		<< ", n pending decompressions=" << n_pend_unzip
		<< ", n pending reads=" << n_pend_reads
		<< ", n pending flush LRU=" << n_flush_LRU
		<< " list=" << n_flush_list
		<< ", pages made young=" << stat.n_pages_made_young
		<< ", not young=" << stat.n_pages_not_made_young
		<< ", pages read=" << stat.n_pages_read
		<< ", created=" << stat.n_pages_created
		<< ", written=" << stat.n_pages_written << "]";

	mysql_mutex_unlock(&flush_list_mutex);

	/* Count the number of blocks belonging to each index in the buffer */

	n_found = 0;

	chunk = chunks;

	for (i = n_chunks; i--; chunk++) {
		buf_block_t*	block		= chunk->blocks;
		ulint		n_blocks	= chunk->size;

		for (; n_blocks--; block++) {
			const buf_frame_t* frame = block->frame;

			if (fil_page_index_page_check(frame)) {

				id = btr_page_get_index_id(frame);

				/* Look for the id in the index_ids array */
				j = 0;

				while (j < n_found) {

					if (index_ids[j] == id) {
						counts[j]++;

						break;
					}
					j++;
				}

				if (j == n_found) {
					n_found++;
					index_ids[j] = id;
					counts[j] = 1;
				}
			}
		}
	}

	mysql_mutex_unlock(&mutex);

	for (i = 0; i < n_found; i++) {
		index = dict_index_get_if_in_cache(index_ids[i]);

		if (!index) {
			ib::info() << "Block count for index "
				<< index_ids[i] << " in buffer is about "
				<< counts[i];
		} else {
			ib::info() << "Block count for index " << index_ids[i]
				<< " in buffer is about " << counts[i]
				<< ", index " << index->name
				<< " of table " << index->table->name;
		}
	}

	ut_free(index_ids);
	ut_free(counts);

	validate();
}
#endif /* UNIV_DEBUG_PRINT || UNIV_DEBUG */

#ifdef UNIV_DEBUG
/** @return the number of latched pages in the buffer pool */
ulint buf_get_latched_pages_number()
{
  ulint fixed_pages_number= 0;

  mysql_mutex_lock(&buf_pool.mutex);

  for (buf_page_t *b= UT_LIST_GET_FIRST(buf_pool.LRU); b;
       b= UT_LIST_GET_NEXT(LRU, b))
    if (b->in_file() && (b->buf_fix_count() || b->io_fix() != BUF_IO_NONE))
      fixed_pages_number++;

  mysql_mutex_unlock(&buf_pool.mutex);

  return fixed_pages_number;
}
#endif /* UNIV_DEBUG */

/** Collect buffer pool metadata.
@param[out]	pool_info	buffer pool metadata */
void buf_stats_get_pool_info(buf_pool_info_t *pool_info)
{
	time_t			current_time;
	double			time_elapsed;

	mysql_mutex_lock(&buf_pool.mutex);
	mysql_mutex_lock(&buf_pool.flush_list_mutex);

	pool_info->pool_size = buf_pool.curr_size;

	pool_info->lru_len = UT_LIST_GET_LEN(buf_pool.LRU);

	pool_info->old_lru_len = buf_pool.LRU_old_len;

	pool_info->free_list_len = UT_LIST_GET_LEN(buf_pool.free);

	pool_info->flush_list_len = UT_LIST_GET_LEN(buf_pool.flush_list);

	pool_info->n_pend_unzip = UT_LIST_GET_LEN(buf_pool.unzip_LRU);

	pool_info->n_pend_reads = buf_pool.n_pend_reads;

	pool_info->n_pending_flush_lru = buf_pool.n_flush_LRU;

	pool_info->n_pending_flush_list = buf_pool.n_flush_list;

	mysql_mutex_unlock(&buf_pool.flush_list_mutex);

	current_time = time(NULL);
	time_elapsed = 0.001 + difftime(current_time,
					buf_pool.last_printout_time);

	pool_info->n_pages_made_young = buf_pool.stat.n_pages_made_young;

	pool_info->n_pages_not_made_young =
		buf_pool.stat.n_pages_not_made_young;

	pool_info->n_pages_read = buf_pool.stat.n_pages_read;

	pool_info->n_pages_created = buf_pool.stat.n_pages_created;

	pool_info->n_pages_written = buf_pool.stat.n_pages_written;

	pool_info->n_page_gets = buf_pool.stat.n_page_gets;

	pool_info->n_ra_pages_read_rnd = buf_pool.stat.n_ra_pages_read_rnd;
	pool_info->n_ra_pages_read = buf_pool.stat.n_ra_pages_read;

	pool_info->n_ra_pages_evicted = buf_pool.stat.n_ra_pages_evicted;

	pool_info->page_made_young_rate =
	static_cast<double>(buf_pool.stat.n_pages_made_young
			    - buf_pool.old_stat.n_pages_made_young)
	/ time_elapsed;

	pool_info->page_not_made_young_rate =
	static_cast<double>(buf_pool.stat.n_pages_not_made_young
			    - buf_pool.old_stat.n_pages_not_made_young)
	/ time_elapsed;

	pool_info->pages_read_rate =
	static_cast<double>(buf_pool.stat.n_pages_read
			    - buf_pool.old_stat.n_pages_read)
	/ time_elapsed;

	pool_info->pages_created_rate =
	static_cast<double>(buf_pool.stat.n_pages_created
			    - buf_pool.old_stat.n_pages_created)
	/ time_elapsed;

	pool_info->pages_written_rate =
	static_cast<double>(buf_pool.stat.n_pages_written
			    - buf_pool.old_stat.n_pages_written)
	/ time_elapsed;

	pool_info->n_page_get_delta = buf_pool.stat.n_page_gets
				      - buf_pool.old_stat.n_page_gets;

	if (pool_info->n_page_get_delta) {
		pool_info->page_read_delta = buf_pool.stat.n_pages_read
					     - buf_pool.old_stat.n_pages_read;

		pool_info->young_making_delta =
			buf_pool.stat.n_pages_made_young
			- buf_pool.old_stat.n_pages_made_young;

		pool_info->not_young_making_delta =
			buf_pool.stat.n_pages_not_made_young
			- buf_pool.old_stat.n_pages_not_made_young;
	}
	pool_info->pages_readahead_rnd_rate =
	static_cast<double>(buf_pool.stat.n_ra_pages_read_rnd
			    - buf_pool.old_stat.n_ra_pages_read_rnd)
	/ time_elapsed;


	pool_info->pages_readahead_rate =
	static_cast<double>(buf_pool.stat.n_ra_pages_read
			    - buf_pool.old_stat.n_ra_pages_read)
	/ time_elapsed;

	pool_info->pages_evicted_rate =
	static_cast<double>(buf_pool.stat.n_ra_pages_evicted
			    - buf_pool.old_stat.n_ra_pages_evicted)
	/ time_elapsed;

	pool_info->unzip_lru_len = UT_LIST_GET_LEN(buf_pool.unzip_LRU);

	pool_info->io_sum = buf_LRU_stat_sum.io;

	pool_info->io_cur = buf_LRU_stat_cur.io;

	pool_info->unzip_sum = buf_LRU_stat_sum.unzip;

	pool_info->unzip_cur = buf_LRU_stat_cur.unzip;

	buf_refresh_io_stats();
	mysql_mutex_unlock(&buf_pool.mutex);
}

/*********************************************************************//**
Prints info of the buffer i/o. */
static
void
buf_print_io_instance(
/*==================*/
	buf_pool_info_t*pool_info,	/*!< in: buffer pool info */
	FILE*		file)		/*!< in/out: buffer where to print */
{
	ut_ad(pool_info);

	fprintf(file,
		"Buffer pool size   " ULINTPF "\n"
		"Free buffers       " ULINTPF "\n"
		"Database pages     " ULINTPF "\n"
		"Old database pages " ULINTPF "\n"
		"Modified db pages  " ULINTPF "\n"
		"Percent of dirty pages(LRU & free pages): %.3f\n"
		"Max dirty pages percent: %.3f\n"
		"Pending reads " ULINTPF "\n"
		"Pending writes: LRU " ULINTPF ", flush list " ULINTPF "\n",
		pool_info->pool_size,
		pool_info->free_list_len,
		pool_info->lru_len,
		pool_info->old_lru_len,
		pool_info->flush_list_len,
		static_cast<double>(pool_info->flush_list_len)
		/ (static_cast<double>(pool_info->lru_len
				       + pool_info->free_list_len) + 1.0)
		* 100.0,
		srv_max_buf_pool_modified_pct,
		pool_info->n_pend_reads,
		pool_info->n_pending_flush_lru,
		pool_info->n_pending_flush_list);

	fprintf(file,
		"Pages made young " ULINTPF ", not young " ULINTPF "\n"
		"%.2f youngs/s, %.2f non-youngs/s\n"
		"Pages read " ULINTPF ", created " ULINTPF
		", written " ULINTPF "\n"
		"%.2f reads/s, %.2f creates/s, %.2f writes/s\n",
		pool_info->n_pages_made_young,
		pool_info->n_pages_not_made_young,
		pool_info->page_made_young_rate,
		pool_info->page_not_made_young_rate,
		pool_info->n_pages_read,
		pool_info->n_pages_created,
		pool_info->n_pages_written,
		pool_info->pages_read_rate,
		pool_info->pages_created_rate,
		pool_info->pages_written_rate);

	if (pool_info->n_page_get_delta) {
		double hit_rate = static_cast<double>(
			pool_info->page_read_delta)
			/ static_cast<double>(pool_info->n_page_get_delta);

		if (hit_rate > 1) {
			hit_rate = 1;
		}

		fprintf(file,
			"Buffer pool hit rate " ULINTPF " / 1000,"
			" young-making rate " ULINTPF " / 1000 not "
			ULINTPF " / 1000\n",
			ulint(1000 * (1 - hit_rate)),
			ulint(1000
			      * double(pool_info->young_making_delta)
			      / double(pool_info->n_page_get_delta)),
			ulint(1000 * double(pool_info->not_young_making_delta)
			      / double(pool_info->n_page_get_delta)));
	} else {
		fputs("No buffer pool page gets since the last printout\n",
		      file);
	}

	/* Statistics about read ahead algorithm */
	fprintf(file, "Pages read ahead %.2f/s,"
		" evicted without access %.2f/s,"
		" Random read ahead %.2f/s\n",

		pool_info->pages_readahead_rate,
		pool_info->pages_evicted_rate,
		pool_info->pages_readahead_rnd_rate);

	/* Print some values to help us with visualizing what is
	happening with LRU eviction. */
	fprintf(file,
		"LRU len: " ULINTPF ", unzip_LRU len: " ULINTPF "\n"
		"I/O sum[" ULINTPF "]:cur[" ULINTPF "], "
		"unzip sum[" ULINTPF "]:cur[" ULINTPF "]\n",
		pool_info->lru_len, pool_info->unzip_lru_len,
		pool_info->io_sum, pool_info->io_cur,
		pool_info->unzip_sum, pool_info->unzip_cur);
}

/*********************************************************************//**
Prints info of the buffer i/o. */
void
buf_print_io(
/*=========*/
	FILE*	file)	/*!< in/out: buffer where to print */
{
	buf_pool_info_t	pool_info;

	buf_stats_get_pool_info(&pool_info);
	buf_print_io_instance(&pool_info, file);
}

/** Verify that post encryption checksum match with the calculated checksum.
This function should be called only if tablespace contains crypt data metadata.
@param[in]	page		page frame
@param[in]	fsp_flags	tablespace flags
@return true if true if page is encrypted and OK, false otherwise */
bool buf_page_verify_crypt_checksum(const byte* page, ulint fsp_flags)
{
	if (!fil_space_t::full_crc32(fsp_flags)) {
		return fil_space_verify_crypt_checksum(
			page, fil_space_t::zip_size(fsp_flags));
	}

	return !buf_page_is_corrupted(true, page, fsp_flags);
}

/** Print the given page_id_t object.
@param[in,out]	out	the output stream
@param[in]	page_id	the page_id_t object to be printed
@return the output stream */
std::ostream& operator<<(std::ostream &out, const page_id_t page_id)
{
  out << "[page id: space=" << page_id.space()
      << ", page number=" << page_id.page_no() << "]";
  return out;
}
#endif /* !UNIV_INNOCHECKSUM */