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mariadb/storage/innobase/include/mtr0log.h
Thirunarayanan Balathandayuthapani a35b4ae898 MDEV-15528 Punch holes when pages are freed 
When a InnoDB data file page is freed, its contents becomes garbage,
and any storage allocated in the data file is wasted. During flushing,
InnoDB initializes the page with zeros if scrubbing is enabled. If the
tablespace is compressed then InnoDB should punch a hole else ignore the
flushing of the freed page.

buf_page_t:
- Replaced the variable file_page_was_freed, init_on_flush in buf_page_t
with status enum variable.
- Changed all debug assert of file_page_was_freed to DBUG_ASSERT
of buf_page_t::status

Removed buf_page_set_file_page_was_freed(),
buf_page_reset_file_page_was_freed().

buf_page_free(): Newly added function which takes X-lock on the page
before marking the status as FREED. So that InnoDB flush handler can
avoid concurrent flush of the freed page. Also while flushing the page,
InnoDB make sure that redo log which does freeing of the page also written
to the disk. Currently, this function only marks the page as FREED if
it is in buffer pool

buf_flush_freed_page(): Newly added function which initializes zeros
asynchorously if innodb_immediate_scrub_data_uncompressed is enabled.
Punch a hole to the file synchorously if page_compressed is enabled.
Reset the io_fix to NORMAL. Release the block from flush list and
associated mutex before writing zeros or punch a hole to the file.

buf_flush_page(): Removed the unnecessary usage of temporary
variable "flush"

fil_io(): Introduce new parameter called punch_hole. It allows fil_io()
to punch the hole to the file for the given offset.

buf_page_create(): Let the callers assign buf_page_t::status.
Every caller should eventually invoke mtr_t::init().

fsp_page_create(): Remove the unused mtr_t parameter.

In all other callers of buf_page_create() except fsp_page_create(),
before invoking mtr_t::init(), invoke
mtr_t::sx_latch_at_savepoint() or mtr_t::x_latch_at_savepoint().

mtr_t::init(): Initialize buf_page_t::status also for the temporary
tablespace (when redo logging is disabled), to avoid assertion failures.
2020-03-10 10:51:08 +05:30

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/*****************************************************************************
Copyright (c) 2019, 2020, MariaDB Corporation.
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 include/mtr0log.h
Mini-transaction log record encoding and decoding
*******************************************************/
#pragma once
#include "mtr0mtr.h"
/** The minimum 2-byte integer (0b10xxxxxx xxxxxxxx) */
constexpr uint32_t MIN_2BYTE= 1 << 7;
/** The minimum 3-byte integer (0b110xxxxx xxxxxxxx xxxxxxxx) */
constexpr uint32_t MIN_3BYTE= MIN_2BYTE + (1 << 14);
/** The minimum 4-byte integer (0b1110xxxx xxxxxxxx xxxxxxxx xxxxxxxx) */
constexpr uint32_t MIN_4BYTE= MIN_3BYTE + (1 << 21);
/** Minimum 5-byte integer (0b11110000 xxxxxxxx xxxxxxxx xxxxxxxx xxxxxxxx) */
constexpr uint32_t MIN_5BYTE= MIN_4BYTE + (1 << 28);
/** Error from mlog_decode_varint() */
constexpr uint32_t MLOG_DECODE_ERROR= ~0U;
/** Decode the length of a variable-length encoded integer.
@param first first byte of the encoded integer
@return the length, in bytes */
inline uint8_t mlog_decode_varint_length(byte first)
{
uint8_t len= 1;
for (; first & 0x80; len++, first<<= 1);
return len;
}
/** Decode an integer in a redo log record.
@param log redo log record buffer
@return the decoded integer
@retval MLOG_DECODE_ERROR on error */
inline uint32_t mlog_decode_varint(const byte* log)
{
uint32_t i= *log;
if (i < MIN_2BYTE)
return i;
if (i < 0xc0)
return MIN_2BYTE + ((i & ~0x80) << 8 | log[1]);
if (i < 0xe0)
return MIN_3BYTE + ((i & ~0xc0) << 16 | uint32_t{log[1]} << 8 | log[2]);
if (i < 0xf0)
return MIN_4BYTE + ((i & ~0xe0) << 24 | uint32_t{log[1]} << 16 |
uint32_t{log[2]} << 8 | log[3]);
if (i == 0xf0)
{
i= uint32_t{log[1]} << 24 | uint32_t{log[2]} << 16 |
uint32_t{log[3]} << 8 | log[4];
if (i <= ~MIN_5BYTE)
return MIN_5BYTE + i;
}
return MLOG_DECODE_ERROR;
}
/** Encode an integer in a redo log record.
@param log redo log record buffer
@param i the integer to encode
@return end of the encoded integer */
inline byte *mlog_encode_varint(byte *log, size_t i)
{
if (i < MIN_2BYTE)
{
}
else if (i < MIN_3BYTE)
{
i-= MIN_2BYTE;
static_assert(MIN_3BYTE - MIN_2BYTE == 1 << 14, "compatibility");
*log++= 0x80 | static_cast<byte>(i >> 8);
}
else if (i < MIN_4BYTE)
{
i-= MIN_3BYTE;
static_assert(MIN_4BYTE - MIN_3BYTE == 1 << 21, "compatibility");
*log++= 0xc0 | static_cast<byte>(i >> 16);
goto last2;
}
else if (i < MIN_5BYTE)
{
i-= MIN_4BYTE;
static_assert(MIN_5BYTE - MIN_4BYTE == 1 << 28, "compatibility");
*log++= 0xe0 | static_cast<byte>(i >> 24);
goto last3;
}
else
{
ut_ad(i < MLOG_DECODE_ERROR);
i-= MIN_5BYTE;
*log++= 0xf0;
*log++= static_cast<byte>(i >> 24);
last3:
*log++= static_cast<byte>(i >> 16);
last2:
*log++= static_cast<byte>(i >> 8);
}
*log++= static_cast<byte>(i);
return log;
}
/** Determine the length of a log record.
@param log start of log record
@param end end of the log record buffer
@return the length of the record, in bytes
@retval 0 if the log extends past the end
@retval MLOG_DECODE_ERROR if the record is corrupted */
inline uint32_t mlog_decode_len(const byte *log, const byte *end)
{
ut_ad(log < end);
uint32_t i= *log;
if (!i)
return 0; /* end of mini-transaction */
if (~i & 15)
return (i & 15) + 1; /* 1..16 bytes */
if (UNIV_UNLIKELY(++log == end))
return 0; /* end of buffer */
i= *log;
if (UNIV_LIKELY(i < MIN_2BYTE)) /* 1 additional length byte: 16..143 bytes */
return 16 + i;
if (i < 0xc0) /* 2 additional length bytes: 144..16,527 bytes */
{
if (UNIV_UNLIKELY(log + 1 == end))
return 0; /* end of buffer */
return 16 + MIN_2BYTE + ((i & ~0xc0) << 8 | log[1]);
}
if (i < 0xe0) /* 3 additional length bytes: 16528..1065103 bytes */
{
if (UNIV_UNLIKELY(log + 2 == end))
return 0; /* end of buffer */
return 16 + MIN_3BYTE + ((i & ~0xe0) << 16 |
static_cast<uint32_t>(log[1]) << 8 | log[2]);
}
/* 1,065,103 bytes per log record ought to be enough for everyone */
return MLOG_DECODE_ERROR;
}
/** Write 1, 2, 4, or 8 bytes to a file page.
@param[in] block file page
@param[in,out] ptr pointer in file page
@param[in] val value to write
@tparam l number of bytes to write
@tparam w write request type
@tparam V type of val
@return whether any log was written */
template<unsigned l,mtr_t::write_type w,typename V>
inline bool mtr_t::write(const buf_block_t &block, void *ptr, V val)
{
ut_ad(ut_align_down(ptr, srv_page_size) == block.frame);
static_assert(l == 1 || l == 2 || l == 4 || l == 8, "wrong length");
byte buf[l];
switch (l) {
case 1:
ut_ad(val == static_cast<byte>(val));
buf[0]= static_cast<byte>(val);
break;
case 2:
ut_ad(val == static_cast<uint16_t>(val));
mach_write_to_2(buf, static_cast<uint16_t>(val));
break;
case 4:
ut_ad(val == static_cast<uint32_t>(val));
mach_write_to_4(buf, static_cast<uint32_t>(val));
break;
case 8:
mach_write_to_8(buf, val);
break;
}
byte *p= static_cast<byte*>(ptr);
const byte *const end= p + l;
if (w != FORCED && m_log_mode == MTR_LOG_ALL)
{
const byte *b= buf;
while (*p++ == *b++)
{
if (p == end)
{
ut_ad(w == OPT);
return false;
}
}
p--;
}
::memcpy(ptr, buf, l);
memcpy_low(block.page, static_cast<uint16_t>
(ut_align_offset(p, srv_page_size)), p, end - p);
return true;
}
/** Log an initialization of a string of bytes.
@param[in] b buffer page
@param[in] ofs byte offset from b->frame
@param[in] len length of the data to write
@param[in] val the data byte to write */
inline void mtr_t::memset(const buf_block_t &b, ulint ofs, ulint len, byte val)
{
ut_ad(len);
set_modified();
if (m_log_mode != MTR_LOG_ALL)
return;
static_assert(MIN_4BYTE > UNIV_PAGE_SIZE_MAX, "consistency");
size_t lenlen= (len < MIN_2BYTE ? 1 + 1 : len < MIN_3BYTE ? 2 + 1 : 3 + 1);
byte *l= log_write<MEMSET>(b.page.id, &b.page, lenlen, true, ofs);
l= mlog_encode_varint(l, len);
*l++= val;
m_log.close(l);
m_last_offset= static_cast<uint16_t>(ofs + len);
}
/** Initialize a string of bytes.
@param[in,out] b buffer page
@param[in] ofs byte offset from block->frame
@param[in] len length of the data to write
@param[in] val the data byte to write */
inline void mtr_t::memset(const buf_block_t *b, ulint ofs, ulint len, byte val)
{
ut_ad(ofs <= ulint(srv_page_size));
ut_ad(ofs + len <= ulint(srv_page_size));
::memset(ofs + b->frame, val, len);
memset(*b, ofs, len, val);
}
/** Log an initialization of a repeating string of bytes.
@param[in] b buffer page
@param[in] ofs byte offset from b->frame
@param[in] len length of the data to write, in bytes
@param[in] str the string to write
@param[in] size size of str, in bytes */
inline void mtr_t::memset(const buf_block_t &b, ulint ofs, size_t len,
const void *str, size_t size)
{
ut_ad(size);
ut_ad(len > size); /* use mtr_t::memcpy() for shorter writes */
set_modified();
if (m_log_mode != MTR_LOG_ALL)
return;
static_assert(MIN_4BYTE > UNIV_PAGE_SIZE_MAX, "consistency");
size_t lenlen= (len < MIN_2BYTE ? 1 : len < MIN_3BYTE ? 2 : 3);
byte *l= log_write<MEMSET>(b.page.id, &b.page, lenlen + size, true, ofs);
l= mlog_encode_varint(l, len);
::memcpy(l, str, size);
l+= size;
m_log.close(l);
m_last_offset= static_cast<uint16_t>(ofs + len);
}
/** Initialize a repeating string of bytes.
@param[in,out] b buffer page
@param[in] ofs byte offset from b->frame
@param[in] len length of the data to write, in bytes
@param[in] str the string to write
@param[in] size size of str, in bytes */
inline void mtr_t::memset(const buf_block_t *b, ulint ofs, size_t len,
const void *str, size_t size)
{
ut_ad(ofs <= ulint(srv_page_size));
ut_ad(ofs + len <= ulint(srv_page_size));
ut_ad(len > size); /* use mtr_t::memcpy() for shorter writes */
size_t s= 0;
while (s < len)
{
::memcpy(ofs + s + b->frame, str, size);
s+= len;
}
::memcpy(ofs + s + b->frame, str, len - s);
memset(*b, ofs, len, str, size);
}
/** Log a write of a byte string to a page.
@param[in] b buffer page
@param[in] offset byte offset from b->frame
@param[in] str the data to write
@param[in] len length of the data to write */
inline void mtr_t::memcpy(const buf_block_t &b, ulint offset, ulint len)
{
ut_ad(len);
ut_ad(offset <= ulint(srv_page_size));
ut_ad(offset + len <= ulint(srv_page_size));
memcpy_low(b.page, uint16_t(offset), &b.frame[offset], len);
}
/** Log a write of a byte string to a page.
@param id page identifier
@param offset byte offset within page
@param data data to be written
@param len length of the data, in bytes */
inline void mtr_t::memcpy_low(const buf_page_t &bpage, uint16_t offset,
const void *data, size_t len)
{
ut_ad(len);
set_modified();
if (m_log_mode != MTR_LOG_ALL)
return;
if (len < mtr_buf_t::MAX_DATA_SIZE - (1 + 3 + 3 + 5 + 5))
{
byte *end= log_write<WRITE>(bpage.id, &bpage, len, true, offset);
::memcpy(end, data, len);
m_log.close(end + len);
}
else
{
m_log.close(log_write<WRITE>(bpage.id, &bpage, len, false, offset));
m_log.push(static_cast<const byte*>(data), static_cast<uint32_t>(len));
}
m_last_offset= static_cast<uint16_t>(offset + len);
}
/** Log that a string of bytes was copied from the same page.
@param[in] b buffer page
@param[in] d destination offset within the page
@param[in] s source offset within the page
@param[in] len length of the data to copy */
inline void mtr_t::memmove(const buf_block_t &b, ulint d, ulint s, ulint len)
{
ut_ad(d >= 8);
ut_ad(s >= 8);
ut_ad(len);
ut_ad(s <= ulint(srv_page_size));
ut_ad(s + len <= ulint(srv_page_size));
ut_ad(s != d);
ut_ad(d <= ulint(srv_page_size));
ut_ad(d + len <= ulint(srv_page_size));
set_modified();
if (m_log_mode != MTR_LOG_ALL)
return;
static_assert(MIN_4BYTE > UNIV_PAGE_SIZE_MAX, "consistency");
size_t lenlen= (len < MIN_2BYTE ? 1 : len < MIN_3BYTE ? 2 : 3);
/* The source offset is encoded relative to the destination offset,
with the sign in the least significant bit. */
if (s > d)
s= (s - d) << 1;
else
s= (d - s) << 1 | 1;
/* The source offset 0 is not possible. */
s-= 1 << 1;
size_t slen= (s < MIN_2BYTE ? 1 : s < MIN_3BYTE ? 2 : 3);
byte *l= log_write<MEMMOVE>(b.page.id, &b.page, lenlen + slen, true, d);
l= mlog_encode_varint(l, len);
l= mlog_encode_varint(l, s);
m_log.close(l);
m_last_offset= static_cast<uint16_t>(d + len);
}
/**
Write a log record.
@tparam type redo log record type
@param id persistent page identifier
@param bpage buffer pool page, or nullptr
@param len number of additional bytes to write
@param alloc whether to allocate the additional bytes
@param offset byte offset, or 0 if the record type does not allow one
@return end of mini-transaction log, minus len */
template<byte type>
inline byte *mtr_t::log_write(const page_id_t id, const buf_page_t *bpage,
size_t len, bool alloc, size_t offset)
{
static_assert(!(type & 15) && type != RESERVED && type != OPTION &&
type <= FILE_CHECKPOINT, "invalid type");
ut_ad(type >= FILE_CREATE || is_named_space(id.space()));
ut_ad(!bpage || bpage->id == id);
constexpr bool have_len= type != INIT_PAGE && type != FREE_PAGE;
constexpr bool have_offset= type == WRITE || type == MEMSET ||
type == MEMMOVE;
static_assert(!have_offset || have_len, "consistency");
ut_ad(have_len || len == 0);
ut_ad(have_len || !alloc);
ut_ad(have_offset || offset == 0);
ut_ad(offset + len <= srv_page_size);
static_assert(MIN_4BYTE >= UNIV_PAGE_SIZE_MAX, "consistency");
size_t max_len;
if (!have_len)
max_len= 1 + 5 + 5;
else if (!have_offset)
max_len= bpage && m_last == bpage
? 1 + 3
: 1 + 3 + 5 + 5;
else if (bpage && m_last == bpage && m_last_offset <= offset)
{
/* Encode the offset relative from m_last_offset. */
offset-= m_last_offset;
max_len= 1 + 3 + 3;
}
else
max_len= 1 + 3 + 5 + 5 + 3;
byte *const log_ptr= m_log.open(alloc ? max_len + len : max_len);
byte *end= log_ptr + 1;
const byte same_page= max_len < 1 + 5 + 5 ? 0x80 : 0;
if (!same_page)
{
end= mlog_encode_varint(end, id.space());
end= mlog_encode_varint(end, id.page_no());
m_last= bpage;
}
if (have_offset)
{
byte* oend= mlog_encode_varint(end, offset);
if (oend + len > &log_ptr[16])
{
len+= oend - log_ptr - 15;
if (len >= MIN_3BYTE)
len+= 2;
else if (len >= MIN_2BYTE)
len++;
*log_ptr= type | same_page;
end= mlog_encode_varint(log_ptr + 1, len);
if (!same_page)
{
end= mlog_encode_varint(end, id.space());
end= mlog_encode_varint(end, id.page_no());
}
end= mlog_encode_varint(end, offset);
return end;
}
else
end= oend;
}
else if (len >= 3 && end + len > &log_ptr[16])
{
len+= end - log_ptr - 15;
if (len >= MIN_3BYTE)
len+= 2;
else if (len >= MIN_2BYTE)
len++;
end= log_ptr;
*end++= type | same_page;
end= mlog_encode_varint(end, len);
if (!same_page)
{
end= mlog_encode_varint(end, id.space());
end= mlog_encode_varint(end, id.page_no());
}
return end;
}
ut_ad(end + len >= &log_ptr[1] + !same_page);
ut_ad(end + len <= &log_ptr[16]);
ut_ad(end <= &log_ptr[max_len]);
*log_ptr= type | same_page | static_cast<byte>(end + len - log_ptr - 1);
ut_ad(*log_ptr & 15);
return end;
}
/** Write a byte string to a page.
@param[in] b buffer page
@param[in] dest destination within b.frame
@param[in] str the data to write
@param[in] len length of the data to write
@tparam w write request type */
template<mtr_t::write_type w>
inline void mtr_t::memcpy(const buf_block_t &b, void *dest, const void *str,
ulint len)
{
ut_ad(ut_align_down(dest, srv_page_size) == b.frame);
char *d= static_cast<char*>(dest);
const char *s= static_cast<const char*>(str);
if (w != FORCED && m_log_mode == MTR_LOG_ALL)
{
ut_ad(len);
const char *const end= d + len;
while (*d++ == *s++)
{
if (d == end)
{
ut_ad(w == OPT);
return;
}
}
s--;
d--;
len= static_cast<ulint>(end - d);
}
::memcpy(d, s, len);
memcpy(b, ut_align_offset(d, srv_page_size), len);
}
/** Initialize an entire page.
@param[in,out] b buffer page */
inline void mtr_t::init(buf_block_t *b)
{
b->page.status= buf_page_t::INIT_ON_FLUSH;
if (m_log_mode != MTR_LOG_ALL)
{
ut_ad(m_log_mode == MTR_LOG_NONE || m_log_mode == MTR_LOG_NO_REDO);
return;
}
m_log.close(log_write<INIT_PAGE>(b->page.id, &b->page));
m_last_offset= FIL_PAGE_TYPE;
}
/** Free a page.
@param id page identifier */
inline void mtr_t::free(const page_id_t id)
{
if (m_log_mode == MTR_LOG_ALL)
m_log.close(log_write<FREE_PAGE>(id, nullptr));
}
/** Write an EXTENDED log record.
@param block buffer pool page
@param type extended record subtype; @see mrec_ext_t */
inline void mtr_t::log_write_extended(const buf_block_t &block, byte type)
{
set_modified();
if (m_log_mode != MTR_LOG_ALL)
return;
byte *l= log_write<EXTENDED>(block.page.id, &block.page, 1, true);
*l++= type;
m_log.close(l);
m_last_offset= FIL_PAGE_TYPE;
}
/** Write log for partly initializing a B-tree or R-tree page.
@param block B-tree or R-tree page
@param comp false=ROW_FORMAT=REDUNDANT, true=COMPACT or DYNAMIC */
inline void mtr_t::page_create(const buf_block_t &block, bool comp)
{
static_assert(false == INIT_ROW_FORMAT_REDUNDANT, "encoding");
static_assert(true == INIT_ROW_FORMAT_DYNAMIC, "encoding");
log_write_extended(block, comp);
}
/** Write log for deleting a B-tree or R-tree record in ROW_FORMAT=REDUNDANT.
@param block B-tree or R-tree page
@param prev_rec byte offset of the predecessor of the record to delete,
starting from PAGE_OLD_INFIMUM */
inline void mtr_t::page_delete(const buf_block_t &block, ulint prev_rec)
{
ut_ad(!block.zip_size());
ut_ad(prev_rec < block.physical_size());
set_modified();
if (m_log_mode != MTR_LOG_ALL)
return;
size_t len= (prev_rec < MIN_2BYTE ? 2 : prev_rec < MIN_3BYTE ? 3 : 4);
byte *l= log_write<EXTENDED>(block.page.id, &block.page, len, true);
ut_d(byte *end= l + len);
*l++= DELETE_ROW_FORMAT_REDUNDANT;
l= mlog_encode_varint(l, prev_rec);
ut_ad(end == l);
m_log.close(l);
m_last_offset= FIL_PAGE_TYPE;
}
/** Write log for deleting a COMPACT or DYNAMIC B-tree or R-tree record.
@param block B-tree or R-tree page
@param prev_rec byte offset of the predecessor of the record to delete,
starting from PAGE_NEW_INFIMUM
@param prev_rec the predecessor of the record to delete
@param hdr_size record header size, excluding REC_N_NEW_EXTRA_BYTES
@param data_size data payload size, in bytes */
inline void mtr_t::page_delete(const buf_block_t &block, ulint prev_rec,
size_t hdr_size, size_t data_size)
{
ut_ad(!block.zip_size());
set_modified();
ut_ad(hdr_size < MIN_3BYTE);
ut_ad(prev_rec < block.physical_size());
ut_ad(data_size < block.physical_size());
if (m_log_mode != MTR_LOG_ALL)
return;
size_t len= prev_rec < MIN_2BYTE ? 2 : prev_rec < MIN_3BYTE ? 3 : 4;
len+= hdr_size < MIN_2BYTE ? 1 : 2;
len+= data_size < MIN_2BYTE ? 1 : data_size < MIN_3BYTE ? 2 : 3;
byte *l= log_write<EXTENDED>(block.page.id, &block.page, len, true);
ut_d(byte *end= l + len);
*l++= DELETE_ROW_FORMAT_DYNAMIC;
l= mlog_encode_varint(l, prev_rec);
l= mlog_encode_varint(l, hdr_size);
l= mlog_encode_varint(l, data_size);
ut_ad(end == l);
m_log.close(l);
m_last_offset= FIL_PAGE_TYPE;
}
/** Write log for initializing an undo log page.
@param block undo page */
inline void mtr_t::undo_create(const buf_block_t &block)
{
log_write_extended(block, UNDO_INIT);
}
/** Write log for appending an undo log record.
@param block undo page
@param data record within the undo page
@param len length of the undo record, in bytes */
inline void mtr_t::undo_append(const buf_block_t &block,
const void *data, size_t len)
{
ut_ad(len > 2);
set_modified();
if (m_log_mode != MTR_LOG_ALL)
return;
const bool small= len + 1 < mtr_buf_t::MAX_DATA_SIZE - (1 + 3 + 3 + 5 + 5);
byte *end= log_write<EXTENDED>(block.page.id, &block.page, len + 1, small);
if (UNIV_LIKELY(small))
{
*end++= UNDO_APPEND;
::memcpy(end, data, len);
m_log.close(end + len);
}
else
{
m_log.close(end);
*m_log.push<byte*>(1)= UNDO_APPEND;
m_log.push(static_cast<const byte*>(data), static_cast<uint32_t>(len));
}
m_last_offset= FIL_PAGE_TYPE;
}
/** Trim the end of a tablespace.
@param id first page identifier that will not be in the file */
inline void mtr_t::trim_pages(const page_id_t id)
{
if (m_log_mode != MTR_LOG_ALL)
return;
byte *l= log_write<EXTENDED>(id, nullptr, 1, true);
*l++= TRIM_PAGES;
m_log.close(l);
}
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