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|
/*
Copyright (c) 2004, 2014, Oracle and/or its affiliates
Copyright (c) 2010, 2014, SkySQL Ab.
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 St, Fifth Floor, Boston, MA 02110-1335 USA
*/
#ifdef USE_PRAGMA_IMPLEMENTATION
#pragma implementation // gcc: Class implementation
#endif
#include <my_global.h>
#include "sql_class.h" // SSV
#include "sql_table.h" // build_table_filename
#include <myisam.h> // T_EXTEND
#include "ha_archive.h"
#include "discover.h"
#include <my_dir.h>
#include <mysql/plugin.h>
/*
First, if you want to understand storage engines you should look at
ha_example.cc and ha_example.h.
This example was written as a test case for a customer who needed
a storage engine without indexes that could compress data very well.
So, welcome to a completely compressed storage engine. This storage
engine only does inserts. No replace, deletes, or updates. All reads are
complete table scans. Compression is done through a combination of packing
and making use of the zlib library
We keep a file pointer open for each instance of ha_archive for each read
but for writes we keep one open file handle just for that. We flush it
only if we have a read occur. azip handles compressing lots of records
at once much better then doing lots of little records between writes.
It is possible to not lock on writes but this would then mean we couldn't
handle bulk inserts as well (that is if someone was trying to read at
the same time since we would want to flush).
A "meta" file is kept alongside the data file. This file serves two purpose.
The first purpose is to track the number of rows in the table. The second
purpose is to determine if the table was closed properly or not. When the
meta file is first opened it is marked as dirty. It is opened when the table
itself is opened for writing. When the table is closed the new count for rows
is written to the meta file and the file is marked as clean. If the meta file
is opened and it is marked as dirty, it is assumed that a crash occurred. At
this point an error occurs and the user is told to rebuild the file.
A rebuild scans the rows and rewrites the meta file. If corruption is found
in the data file then the meta file is not repaired.
At some point a recovery method for such a drastic case needs to be divised.
Locks are row level, and you will get a consistant read.
For performance as far as table scans go it is quite fast. I don't have
good numbers but locally it has out performed both Innodb and MyISAM. For
Innodb the question will be if the table can be fit into the buffer
pool. For MyISAM its a question of how much the file system caches the
MyISAM file. With enough free memory MyISAM is faster. Its only when the OS
doesn't have enough memory to cache entire table that archive turns out
to be any faster.
Examples between MyISAM (packed) and Archive.
Table with 76695844 identical rows:
29680807 a_archive.ARZ
920350317 a.MYD
Table with 8991478 rows (all of Slashdot's comments):
1922964506 comment_archive.ARZ
2944970297 comment_text.MYD
TODO:
Allow users to set compression level.
Allow adjustable block size.
Implement versioning, should be easy.
Allow for errors, find a way to mark bad rows.
Add optional feature so that rows can be flushed at interval (which will cause less
compression but may speed up ordered searches).
Checkpoint the meta file to allow for faster rebuilds.
Option to allow for dirty reads, this would lower the sync calls, which would make
inserts a lot faster, but would mean highly arbitrary reads.
-Brian
Archive file format versions:
<5.1.5 - v.1
5.1.5-5.1.15 - v.2
>5.1.15 - v.3
*/
/* The file extension */
#define ARZ ".ARZ" // The data file
#define ARN ".ARN" // Files used during an optimize call
#define ARM ".ARM" // Meta file (deprecated)
/* 5.0 compatibility */
#define META_V1_OFFSET_CHECK_HEADER 0
#define META_V1_OFFSET_VERSION 1
#define META_V1_OFFSET_ROWS_RECORDED 2
#define META_V1_OFFSET_CHECK_POINT 10
#define META_V1_OFFSET_CRASHED 18
#define META_V1_LENGTH 19
/*
uchar + uchar
*/
#define DATA_BUFFER_SIZE 2 // Size of the data used in the data file
#define ARCHIVE_CHECK_HEADER 254 // The number we use to determine corruption
#ifdef HAVE_PSI_INTERFACE
extern "C" PSI_file_key arch_key_file_data;
#endif
/* Static declarations for handerton */
static handler *archive_create_handler(handlerton *hton,
TABLE_SHARE *table,
MEM_ROOT *mem_root);
int archive_discover(handlerton *hton, THD* thd, TABLE_SHARE *share);
/*
Number of rows that will force a bulk insert.
*/
#define ARCHIVE_MIN_ROWS_TO_USE_BULK_INSERT 2
/*
Size of header used for row
*/
#define ARCHIVE_ROW_HEADER_SIZE 4
static handler *archive_create_handler(handlerton *hton,
TABLE_SHARE *table,
MEM_ROOT *mem_root)
{
return new (mem_root) ha_archive(hton, table);
}
#ifdef HAVE_PSI_INTERFACE
PSI_mutex_key az_key_mutex_Archive_share_mutex;
static PSI_mutex_info all_archive_mutexes[]=
{
{ &az_key_mutex_Archive_share_mutex, "Archive_share::mutex", 0}
};
PSI_file_key arch_key_file_metadata, arch_key_file_data;
static PSI_file_info all_archive_files[]=
{
{ &arch_key_file_metadata, "metadata", 0},
{ &arch_key_file_data, "data", 0}
};
static void init_archive_psi_keys(void)
{
const char* category= "archive";
int count;
if (!PSI_server)
return;
count= array_elements(all_archive_mutexes);
mysql_mutex_register(category, all_archive_mutexes, count);
count= array_elements(all_archive_files);
mysql_file_register(category, all_archive_files, count);
}
#endif /* HAVE_PSI_INTERFACE */
/*
Initialize the archive handler.
SYNOPSIS
archive_db_init()
void *
RETURN
FALSE OK
TRUE Error
*/
/*
We just implement one additional file extension.
ARM is here just to properly drop 5.0 tables.
*/
static const char *ha_archive_exts[] = {
ARZ,
ARM,
NullS
};
int archive_db_init(void *p)
{
DBUG_ENTER("archive_db_init");
handlerton *archive_hton;
#ifdef HAVE_PSI_INTERFACE
init_archive_psi_keys();
#endif
archive_hton= (handlerton *)p;
archive_hton->state= SHOW_OPTION_YES;
archive_hton->db_type= DB_TYPE_ARCHIVE_DB;
archive_hton->create= archive_create_handler;
archive_hton->flags= HTON_NO_FLAGS;
archive_hton->discover_table= archive_discover;
archive_hton->tablefile_extensions= ha_archive_exts;
DBUG_RETURN(0);
}
Archive_share::Archive_share()
{
crashed= false;
in_optimize= false;
archive_write_open= false;
dirty= false;
DBUG_PRINT("ha_archive", ("Archive_share: %p",
this));
thr_lock_init(&lock);
/*
We will use this lock for rows.
*/
mysql_mutex_init(az_key_mutex_Archive_share_mutex,
&mutex, MY_MUTEX_INIT_FAST);
}
ha_archive::ha_archive(handlerton *hton, TABLE_SHARE *table_arg)
:handler(hton, table_arg), delayed_insert(0), bulk_insert(0)
{
/* Set our original buffer from pre-allocated memory */
buffer.set((char *)byte_buffer, IO_SIZE, system_charset_info);
/* The size of the offset value we will use for position() */
ref_length= sizeof(my_off_t);
archive_reader_open= FALSE;
}
int archive_discover(handlerton *hton, THD* thd, TABLE_SHARE *share)
{
DBUG_ENTER("archive_discover");
DBUG_PRINT("archive_discover", ("db: '%s' name: '%s'", share->db.str,
share->table_name.str));
azio_stream frm_stream;
char az_file[FN_REFLEN];
uchar *frm_ptr;
MY_STAT file_stat;
strxmov(az_file, share->normalized_path.str, ARZ, NullS);
if (!(mysql_file_stat(/* arch_key_file_data */ 0, az_file, &file_stat, MYF(0))))
DBUG_RETURN(HA_ERR_NO_SUCH_TABLE);
if (!(azopen(&frm_stream, az_file, O_RDONLY|O_BINARY)))
{
if (errno == EROFS || errno == EACCES)
DBUG_RETURN(my_errno= errno);
DBUG_RETURN(HA_ERR_CRASHED_ON_USAGE);
}
if (frm_stream.frm_length == 0)
DBUG_RETURN(HA_ERR_CRASHED_ON_USAGE);
frm_ptr= (uchar *)my_malloc(sizeof(char) * frm_stream.frm_length,
MYF(MY_THREAD_SPECIFIC | MY_WME));
if (!frm_ptr)
DBUG_RETURN(HA_ERR_OUT_OF_MEM);
if (azread_frm(&frm_stream, frm_ptr))
goto ret;
azclose(&frm_stream);
my_errno= share->init_from_binary_frm_image(thd, 1,
frm_ptr, frm_stream.frm_length);
ret:
my_free(frm_ptr);
DBUG_RETURN(my_errno);
}
/**
@brief Read version 1 meta file (5.0 compatibility routine).
@return Completion status
@retval 0 Success
@retval !0 Failure
*/
int Archive_share::read_v1_metafile()
{
char file_name[FN_REFLEN];
uchar buf[META_V1_LENGTH];
File fd;
DBUG_ENTER("Archive_share::read_v1_metafile");
fn_format(file_name, data_file_name, "", ARM, MY_REPLACE_EXT);
if ((fd= mysql_file_open(arch_key_file_metadata, file_name, O_RDONLY, MYF(0))) == -1)
DBUG_RETURN(-1);
if (mysql_file_read(fd, buf, sizeof(buf), MYF(0)) != sizeof(buf))
{
mysql_file_close(fd, MYF(0));
DBUG_RETURN(-1);
}
rows_recorded= uint8korr(buf + META_V1_OFFSET_ROWS_RECORDED);
crashed= buf[META_V1_OFFSET_CRASHED];
mysql_file_close(fd, MYF(0));
DBUG_RETURN(0);
}
/**
@brief Write version 1 meta file (5.0 compatibility routine).
@return Completion status
@retval 0 Success
@retval !0 Failure
*/
int Archive_share::write_v1_metafile()
{
char file_name[FN_REFLEN];
uchar buf[META_V1_LENGTH];
File fd;
DBUG_ENTER("Archive_share::write_v1_metafile");
buf[META_V1_OFFSET_CHECK_HEADER]= ARCHIVE_CHECK_HEADER;
buf[META_V1_OFFSET_VERSION]= 1;
int8store(buf + META_V1_OFFSET_ROWS_RECORDED, rows_recorded);
int8store(buf + META_V1_OFFSET_CHECK_POINT, (ulonglong) 0);
buf[META_V1_OFFSET_CRASHED]= crashed;
fn_format(file_name, data_file_name, "", ARM, MY_REPLACE_EXT);
if ((fd= mysql_file_open(arch_key_file_metadata, file_name, O_WRONLY, MYF(0))) == -1)
DBUG_RETURN(-1);
if (mysql_file_write(fd, buf, sizeof(buf), MYF(0)) != sizeof(buf))
{
mysql_file_close(fd, MYF(0));
DBUG_RETURN(-1);
}
mysql_file_close(fd, MYF(0));
DBUG_RETURN(0);
}
/**
@brief Pack version 1 row (5.0 compatibility routine).
@param[in] record the record to pack
@return Length of packed row
*/
unsigned int ha_archive::pack_row_v1(const uchar *record)
{
uint *blob, *end;
uchar *pos;
DBUG_ENTER("pack_row_v1");
memcpy(record_buffer->buffer, record, table->s->reclength);
/*
The end of VARCHAR fields are filled with garbage,so here
we explicitly set the end of the VARCHAR fields with zeroes
*/
for (Field** field= table->field; (*field) ; field++)
{
Field *fld= *field;
if (fld->type() == MYSQL_TYPE_VARCHAR)
{
if (!(fld->is_real_null(record - table->record[0])))
{
ptrdiff_t start= (fld->ptr - table->record[0]);
Field_varstring *const field_var= (Field_varstring *)fld;
uint offset= field_var->data_length() + field_var->length_size();
memset(record_buffer->buffer + start + offset, 0,
fld->field_length - offset + 1);
}
}
}
pos= record_buffer->buffer + table->s->reclength;
for (blob= table->s->blob_field, end= blob + table->s->blob_fields;
blob != end; blob++)
{
uint32 length= ((Field_blob *) table->field[*blob])->get_length();
if (length)
{
uchar *data_ptr= ((Field_blob *) table->field[*blob])->get_ptr();
memcpy(pos, data_ptr, length);
pos+= length;
}
}
DBUG_RETURN((int)(pos - record_buffer->buffer));
}
/*
This method reads the header of a datafile and returns whether or not it was successful.
*/
int ha_archive::read_data_header(azio_stream *file_to_read)
{
int error;
unsigned long ret;
uchar data_buffer[DATA_BUFFER_SIZE];
DBUG_ENTER("ha_archive::read_data_header");
if (azrewind(file_to_read) == -1)
DBUG_RETURN(HA_ERR_CRASHED_ON_USAGE);
if (file_to_read->version >= 3)
DBUG_RETURN(0);
/* Everything below this is just legacy to version 2< */
DBUG_PRINT("ha_archive", ("Reading legacy data header"));
ret= azread(file_to_read, data_buffer, DATA_BUFFER_SIZE, &error);
if (ret != DATA_BUFFER_SIZE)
{
DBUG_PRINT("ha_archive", ("Reading, expected %d got %lu",
DATA_BUFFER_SIZE, ret));
DBUG_RETURN(1);
}
if (error)
{
DBUG_PRINT("ha_archive", ("Compression error (%d)", error));
DBUG_RETURN(1);
}
DBUG_PRINT("ha_archive", ("Check %u", data_buffer[0]));
DBUG_PRINT("ha_archive", ("Version %u", data_buffer[1]));
if ((data_buffer[0] != (uchar)ARCHIVE_CHECK_HEADER) &&
(data_buffer[1] == 1 || data_buffer[1] == 2))
DBUG_RETURN(HA_ERR_CRASHED_ON_USAGE);
DBUG_RETURN(0);
}
/*
We create the shared memory space that we will use for the open table.
No matter what we try to get or create a share. This is so that a repair
table operation can occur.
See ha_example.cc for a longer description.
*/
Archive_share *ha_archive::get_share(const char *table_name, int *rc)
{
Archive_share *tmp_share;
DBUG_ENTER("ha_archive::get_share");
lock_shared_ha_data();
if (!(tmp_share= static_cast<Archive_share*>(get_ha_share_ptr())))
{
azio_stream archive_tmp;
tmp_share= new Archive_share;
if (!tmp_share)
{
*rc= HA_ERR_OUT_OF_MEM;
goto err;
}
DBUG_PRINT("ha_archive", ("new Archive_share: %p",
tmp_share));
fn_format(tmp_share->data_file_name, table_name, "",
ARZ, MY_REPLACE_EXT | MY_UNPACK_FILENAME);
strmov(tmp_share->table_name, table_name);
DBUG_PRINT("ha_archive", ("Data File %s",
tmp_share->data_file_name));
/*
We read the meta file, but do not mark it dirty. Since we are not
doing a write we won't mark it dirty (and we won't open it for
anything but reading... open it for write and we will generate null
compression writes).
*/
if (!(azopen(&archive_tmp, tmp_share->data_file_name, O_RDONLY|O_BINARY)))
{
delete tmp_share;
*rc= my_errno ? my_errno : HA_ERR_CRASHED;
tmp_share= NULL;
goto err;
}
stats.auto_increment_value= archive_tmp.auto_increment + 1;
tmp_share->rows_recorded= (ha_rows)archive_tmp.rows;
tmp_share->crashed= archive_tmp.dirty;
share= tmp_share;
if (archive_tmp.version == 1)
share->read_v1_metafile();
else if (frm_compare(&archive_tmp))
*rc= HA_ERR_TABLE_DEF_CHANGED;
azclose(&archive_tmp);
set_ha_share_ptr(static_cast<Handler_share*>(tmp_share));
}
if (tmp_share->crashed)
*rc= HA_ERR_CRASHED_ON_USAGE;
err:
unlock_shared_ha_data();
DBUG_ASSERT(tmp_share || *rc);
DBUG_RETURN(tmp_share);
}
int Archive_share::init_archive_writer()
{
DBUG_ENTER("Archive_share::init_archive_writer");
/*
It is expensive to open and close the data files and since you can't have
a gzip file that can be both read and written we keep a writer open
that is shared amoung all open tables.
*/
if (!(azopen(&archive_write, data_file_name,
O_RDWR|O_BINARY)))
{
DBUG_PRINT("ha_archive", ("Could not open archive write file"));
crashed= true;
DBUG_RETURN(1);
}
archive_write_open= true;
DBUG_RETURN(0);
}
void Archive_share::close_archive_writer()
{
mysql_mutex_assert_owner(&mutex);
if (archive_write_open)
{
if (archive_write.version == 1)
(void) write_v1_metafile();
azclose(&archive_write);
archive_write_open= false;
dirty= false;
}
}
/*
No locks are required because it is associated with just one handler instance
*/
int ha_archive::init_archive_reader()
{
DBUG_ENTER("ha_archive::init_archive_reader");
/*
It is expensive to open and close the data files and since you can't have
a gzip file that can be both read and written we keep a writer open
that is shared amoung all open tables, but have one reader open for
each handler instance.
*/
if (!archive_reader_open)
{
if (!(azopen(&archive, share->data_file_name, O_RDONLY|O_BINARY)))
{
DBUG_PRINT("ha_archive", ("Could not open archive read file"));
share->crashed= TRUE;
DBUG_RETURN(1);
}
archive_reader_open= TRUE;
}
DBUG_RETURN(0);
}
/*
When opening a file we:
Create/get our shared structure.
Init out lock.
We open the file we will read from.
*/
int ha_archive::open(const char *name, int mode, uint open_options)
{
int rc= 0;
DBUG_ENTER("ha_archive::open");
DBUG_PRINT("ha_archive", ("archive table was opened for crash: %s",
(open_options & HA_OPEN_FOR_REPAIR) ? "yes" : "no"));
share= get_share(name, &rc);
if (!share)
DBUG_RETURN(rc);
/* Allow open on crashed table in repair mode only. */
switch (rc)
{
case 0:
break;
case HA_ERR_TABLE_DEF_CHANGED:
case HA_ERR_CRASHED_ON_USAGE:
if (open_options & HA_OPEN_FOR_REPAIR)
{
rc= 0;
break;
}
/* fall through */
default:
DBUG_RETURN(rc);
}
DBUG_ASSERT(share);
record_buffer= create_record_buffer(table->s->reclength +
ARCHIVE_ROW_HEADER_SIZE);
if (!record_buffer)
DBUG_RETURN(HA_ERR_OUT_OF_MEM);
thr_lock_data_init(&share->lock, &lock, NULL);
DBUG_PRINT("ha_archive", ("archive table was crashed %s",
rc == HA_ERR_CRASHED_ON_USAGE ? "yes" : "no"));
if (rc == HA_ERR_CRASHED_ON_USAGE && open_options & HA_OPEN_FOR_REPAIR)
{
DBUG_RETURN(0);
}
DBUG_RETURN(rc);
}
/*
Closes the file.
SYNOPSIS
close();
IMPLEMENTATION:
We first close this storage engines file handle to the archive and
then remove our reference count to the table (and possibly free it
as well).
RETURN
0 ok
1 Error
*/
int ha_archive::close(void)
{
int rc= 0;
DBUG_ENTER("ha_archive::close");
destroy_record_buffer(record_buffer);
/* First close stream */
if (archive_reader_open)
{
if (azclose(&archive))
rc= 1;
}
DBUG_RETURN(rc);
}
/**
Copy a frm blob between streams.
@param src The source stream.
@param dst The destination stream.
@return Zero on success, non-zero otherwise.
*/
int ha_archive::frm_copy(azio_stream *src, azio_stream *dst)
{
int rc= 0;
uchar *frm_ptr;
if (!src->frm_length)
{
size_t frm_len;
if (!table_share->read_frm_image((const uchar**) &frm_ptr, &frm_len))
{
azwrite_frm(dst, frm_ptr, frm_len);
table_share->free_frm_image(frm_ptr);
}
return 0;
}
if (!(frm_ptr= (uchar *) my_malloc(src->frm_length,
MYF(MY_THREAD_SPECIFIC | MY_WME))))
return HA_ERR_OUT_OF_MEM;
/* Write file offset is set to the end of the file. */
if (azread_frm(src, frm_ptr) ||
azwrite_frm(dst, frm_ptr, src->frm_length))
rc= my_errno ? my_errno : HA_ERR_INTERNAL_ERROR;
my_free(frm_ptr);
return rc;
}
/**
Compare frm blob with the on-disk frm file
@param s The azio stream.
@return Zero if equal, non-zero otherwise.
*/
int ha_archive::frm_compare(azio_stream *s)
{
if (!s->frmver_length)
return 0; // Old pre-10.0 archive table. Never rediscover.
LEX_CUSTRING *ver= &table->s->tabledef_version;
return ver->length != s->frmver_length ||
memcmp(ver->str, s->frmver, ver->length);
}
/*
We create our data file here. The format is pretty simple.
You can read about the format of the data file above.
Unlike other storage engines we do not "pack" our data. Since we
are about to do a general compression, packing would just be a waste of
CPU time. If the table has blobs they are written after the row in the order
of creation.
*/
int ha_archive::create(const char *name, TABLE *table_arg,
HA_CREATE_INFO *create_info)
{
char name_buff[FN_REFLEN];
char linkname[FN_REFLEN];
int error;
azio_stream create_stream; /* Archive file we are working with */
const uchar *frm_ptr;
size_t frm_len;
DBUG_ENTER("ha_archive::create");
stats.auto_increment_value= create_info->auto_increment_value;
for (uint key= 0; key < table_arg->s->keys; key++)
{
KEY *pos= table_arg->key_info+key;
KEY_PART_INFO *key_part= pos->key_part;
KEY_PART_INFO *key_part_end= key_part + pos->user_defined_key_parts;
for (; key_part != key_part_end; key_part++)
{
Field *field= key_part->field;
if (!(field->flags & AUTO_INCREMENT_FLAG))
{
error= HA_WRONG_CREATE_OPTION;
DBUG_PRINT("ha_archive", ("Index error in creating archive table"));
goto error;
}
}
}
/*
We reuse name_buff since it is available.
*/
#ifdef HAVE_READLINK
if (my_use_symdir &&
create_info->data_file_name &&
create_info->data_file_name[0] != '#')
{
DBUG_PRINT("ha_archive", ("archive will create stream file %s",
create_info->data_file_name));
fn_format(name_buff, create_info->data_file_name, "", ARZ,
MY_REPLACE_EXT | MY_UNPACK_FILENAME);
fn_format(linkname, name, "", ARZ,
MY_REPLACE_EXT | MY_UNPACK_FILENAME);
}
else
#endif /* HAVE_READLINK */
{
if (create_info->data_file_name)
my_error(WARN_OPTION_IGNORED, MYF(ME_WARNING), "DATA DIRECTORY");
fn_format(name_buff, name, "", ARZ,
MY_REPLACE_EXT | MY_UNPACK_FILENAME);
linkname[0]= 0;
}
/* Archive engine never uses INDEX DIRECTORY. */
if (create_info->index_file_name)
my_error(WARN_OPTION_IGNORED, MYF(ME_WARNING), "INDEX DIRECTORY");
/*
There is a chance that the file was "discovered". In this case
just use whatever file is there.
*/
my_errno= 0;
if (!(azopen(&create_stream, name_buff, O_CREAT|O_RDWR|O_BINARY)))
{
error= errno;
goto error2;
}
if (linkname[0])
my_symlink(name_buff, linkname, MYF(0));
/*
Here is where we open up the frm and pass it to archive to store
*/
if (!table_arg->s->read_frm_image(&frm_ptr, &frm_len))
{
azwrite_frm(&create_stream, frm_ptr, frm_len);
table_arg->s->free_frm_image(frm_ptr);
}
if (create_info->comment.str)
azwrite_comment(&create_stream, create_info->comment.str,
create_info->comment.length);
/*
Yes you need to do this, because the starting value
for the autoincrement may not be zero.
*/
create_stream.auto_increment= stats.auto_increment_value ?
stats.auto_increment_value - 1 : 0;
if (azclose(&create_stream))
{
error= errno;
goto error2;
}
DBUG_PRINT("ha_archive", ("Creating File %s", name_buff));
DBUG_PRINT("ha_archive", ("Creating Link %s", linkname));
DBUG_RETURN(0);
error2:
delete_table(name);
error:
/* Return error number, if we got one */
DBUG_RETURN(error ? error : -1);
}
/*
This is where the actual row is written out.
*/
int ha_archive::real_write_row(const uchar *buf, azio_stream *writer)
{
my_off_t written;
unsigned int r_pack_length;
DBUG_ENTER("ha_archive::real_write_row");
/* We pack the row for writing */
r_pack_length= pack_row(buf, writer);
written= azwrite(writer, record_buffer->buffer, r_pack_length);
if (written != r_pack_length)
{
DBUG_PRINT("ha_archive", ("Wrote %d bytes expected %d",
(uint32) written,
(uint32)r_pack_length));
DBUG_RETURN(-1);
}
if (!delayed_insert || !bulk_insert)
share->dirty= TRUE;
DBUG_RETURN(0);
}
/*
Calculate max length needed for row. This includes
the bytes required for the length in the header.
*/
uint32 ha_archive::max_row_length(const uchar *record)
{
uint32 length= (uint32)(table->s->reclength + table->s->fields*2);
length+= ARCHIVE_ROW_HEADER_SIZE;
my_ptrdiff_t const rec_offset= record - table->record[0];
uint *ptr, *end;
for (ptr= table->s->blob_field, end=ptr + table->s->blob_fields ;
ptr != end ;
ptr++)
{
if (!table->field[*ptr]->is_null(rec_offset))
length += 2 + ((Field_blob*)table->field[*ptr])->get_length(rec_offset);
}
return length;
}
unsigned int ha_archive::pack_row(const uchar *record, azio_stream *writer)
{
uchar *ptr;
my_ptrdiff_t const rec_offset= record - table->record[0];
DBUG_ENTER("ha_archive::pack_row");
if (fix_rec_buff(max_row_length(record)))
DBUG_RETURN(HA_ERR_OUT_OF_MEM); /* purecov: inspected */
if (writer->version == 1)
DBUG_RETURN(pack_row_v1(record));
/* Copy null bits */
memcpy(record_buffer->buffer+ARCHIVE_ROW_HEADER_SIZE,
record, table->s->null_bytes);
ptr= record_buffer->buffer + table->s->null_bytes + ARCHIVE_ROW_HEADER_SIZE;
for (Field **field=table->field ; *field ; field++)
{
if (!((*field)->is_null(rec_offset)))
ptr= (*field)->pack(ptr, record + (*field)->offset(record));
}
int4store(record_buffer->buffer, (int)(ptr - record_buffer->buffer -
ARCHIVE_ROW_HEADER_SIZE));
DBUG_PRINT("ha_archive",("Pack row length %u", (unsigned int)
(ptr - record_buffer->buffer -
ARCHIVE_ROW_HEADER_SIZE)));
DBUG_RETURN((unsigned int) (ptr - record_buffer->buffer));
}
/*
Look at ha_archive::open() for an explanation of the row format.
Here we just write out the row.
Wondering about start_bulk_insert()? We don't implement it for
archive since it optimizes for lots of writes. The only save
for implementing start_bulk_insert() is that we could skip
setting dirty to true each time.
*/
int ha_archive::write_row(const uchar *buf)
{
int rc;
uchar *read_buf= NULL;
ulonglong temp_auto;
uchar *record= table->record[0];
DBUG_ENTER("ha_archive::write_row");
if (share->crashed)
DBUG_RETURN(HA_ERR_CRASHED_ON_USAGE);
mysql_mutex_lock(&share->mutex);
if (!share->archive_write_open && share->init_archive_writer())
{
rc= errno;
goto error;
}
if (table->next_number_field && record == table->record[0])
{
KEY *mkey= &table->key_info[0]; // We only support one key right now
update_auto_increment();
temp_auto= table->next_number_field->val_int();
/*
We don't support decremening auto_increment. They make the performance
just cry.
*/
if (temp_auto <= share->archive_write.auto_increment &&
mkey->flags & HA_NOSAME)
{
rc= HA_ERR_FOUND_DUPP_KEY;
goto error;
}
#ifdef DEAD_CODE
/*
Bad news, this will cause a search for the unique value which is very
expensive since we will have to do a table scan which will lock up
all other writers during this period. This could perhaps be optimized
in the future.
*/
{
/*
First we create a buffer that we can use for reading rows, and can pass
to get_row().
*/
if (!(read_buf= (uchar*) my_malloc(table->s->reclength,
MYF(MY_THREAD_SPECIFIC | MY_WME))))
{
rc= HA_ERR_OUT_OF_MEM;
goto error;
}
/*
All of the buffer must be written out or we won't see all of the
data
*/
azflush(&(share->archive_write), Z_SYNC_FLUSH);
/*
Set the position of the local read thread to the beginning position.
*/
if (read_data_header(&archive))
{
rc= HA_ERR_CRASHED_ON_USAGE;
goto error;
}
Field *mfield= table->next_number_field;
while (!(get_row(&archive, read_buf)))
{
if (!memcmp(read_buf + mfield->offset(record),
table->next_number_field->ptr,
mfield->max_display_length()))
{
rc= HA_ERR_FOUND_DUPP_KEY;
goto error;
}
}
}
#endif
else
{
if (temp_auto > share->archive_write.auto_increment)
stats.auto_increment_value=
(share->archive_write.auto_increment= temp_auto) + 1;
}
}
/*
Notice that the global auto_increment has been increased.
In case of a failed row write, we will never try to reuse the value.
*/
share->rows_recorded++;
rc= real_write_row(buf, &(share->archive_write));
error:
mysql_mutex_unlock(&share->mutex);
my_free(read_buf);
DBUG_RETURN(rc);
}
void ha_archive::get_auto_increment(ulonglong offset, ulonglong increment,
ulonglong nb_desired_values,
ulonglong *first_value,
ulonglong *nb_reserved_values)
{
*nb_reserved_values= ULONGLONG_MAX;
*first_value= share->archive_write.auto_increment + 1;
}
/* Initialized at each key walk (called multiple times unlike rnd_init()) */
int ha_archive::index_init(uint keynr, bool sorted)
{
DBUG_ENTER("ha_archive::index_init");
active_index= keynr;
DBUG_RETURN(0);
}
/*
No indexes, so if we get a request for an index search since we tell
the optimizer that we have unique indexes, we scan
*/
int ha_archive::index_read(uchar *buf, const uchar *key,
uint key_len, enum ha_rkey_function find_flag)
{
int rc;
DBUG_ENTER("ha_archive::index_read");
rc= index_read_idx(buf, active_index, key, key_len, find_flag);
DBUG_RETURN(rc);
}
int ha_archive::index_read_idx(uchar *buf, uint index, const uchar *key,
uint key_len, enum ha_rkey_function find_flag)
{
int rc;
bool found= 0;
KEY *mkey= &table->key_info[index];
current_k_offset= mkey->key_part->offset;
current_key= key;
current_key_len= key_len;
DBUG_ENTER("ha_archive::index_read_idx");
rc= rnd_init(TRUE);
if (rc)
goto error;
while (!(get_row(&archive, buf)))
{
if (!memcmp(current_key, buf + current_k_offset, current_key_len))
{
found= 1;
break;
}
}
if (found)
{
/* notify handler that a record has been found */
table->status= 0;
DBUG_RETURN(0);
}
error:
DBUG_RETURN(rc ? rc : HA_ERR_END_OF_FILE);
}
int ha_archive::index_next(uchar * buf)
{
bool found= 0;
int rc;
DBUG_ENTER("ha_archive::index_next");
while (!(get_row(&archive, buf)))
{
if (!memcmp(current_key, buf+current_k_offset, current_key_len))
{
found= 1;
break;
}
}
rc= found ? 0 : HA_ERR_END_OF_FILE;
DBUG_RETURN(rc);
}
/*
All calls that need to scan the table start with this method. If we are told
that it is a table scan we rewind the file to the beginning, otherwise
we assume the position will be set.
*/
int ha_archive::rnd_init(bool scan)
{
DBUG_ENTER("ha_archive::rnd_init");
if (share->crashed)
DBUG_RETURN(HA_ERR_CRASHED_ON_USAGE);
if (init_archive_reader())
DBUG_RETURN(errno);
/* We rewind the file so that we can read from the beginning if scan */
if (scan)
{
scan_rows= stats.records;
DBUG_PRINT("info", ("archive will retrieve %llu rows",
(unsigned long long) scan_rows));
if (read_data_header(&archive))
DBUG_RETURN(HA_ERR_CRASHED_ON_USAGE);
}
DBUG_RETURN(0);
}
/*
This is the method that is used to read a row. It assumes that the row is
positioned where you want it.
*/
int ha_archive::get_row(azio_stream *file_to_read, uchar *buf)
{
int rc;
DBUG_ENTER("ha_archive::get_row");
DBUG_PRINT("ha_archive", ("Picking version for get_row() %d -> %d",
(uchar)file_to_read->version,
ARCHIVE_VERSION));
if (file_to_read->version == ARCHIVE_VERSION)
rc= get_row_version3(file_to_read, buf);
else
rc= get_row_version2(file_to_read, buf);
DBUG_PRINT("ha_archive", ("Return %d\n", rc));
DBUG_RETURN(rc);
}
/* Reallocate buffer if needed */
bool ha_archive::fix_rec_buff(unsigned int length)
{
DBUG_ENTER("ha_archive::fix_rec_buff");
DBUG_PRINT("ha_archive", ("Fixing %u for %u",
length, record_buffer->length));
DBUG_ASSERT(record_buffer->buffer);
if (length > record_buffer->length)
{
uchar *newptr;
if (!(newptr=(uchar*) my_realloc((uchar*) record_buffer->buffer,
length,
MYF(MY_ALLOW_ZERO_PTR))))
DBUG_RETURN(1);
record_buffer->buffer= newptr;
record_buffer->length= length;
}
DBUG_ASSERT(length <= record_buffer->length);
DBUG_RETURN(0);
}
int ha_archive::unpack_row(azio_stream *file_to_read, uchar *record)
{
DBUG_ENTER("ha_archive::unpack_row");
unsigned int read;
int error;
uchar size_buffer[ARCHIVE_ROW_HEADER_SIZE];
unsigned int row_len;
/* First we grab the length stored */
read= azread(file_to_read, size_buffer, ARCHIVE_ROW_HEADER_SIZE, &error);
if (error == Z_STREAM_ERROR || (read && read < ARCHIVE_ROW_HEADER_SIZE))
DBUG_RETURN(HA_ERR_CRASHED_ON_USAGE);
/* If we read nothing we are at the end of the file */
if (read == 0 || read != ARCHIVE_ROW_HEADER_SIZE)
DBUG_RETURN(HA_ERR_END_OF_FILE);
row_len= uint4korr(size_buffer);
DBUG_PRINT("ha_archive",("Unpack row length %u -> %u", row_len,
(unsigned int)table->s->reclength));
if (fix_rec_buff(row_len))
{
DBUG_RETURN(HA_ERR_OUT_OF_MEM);
}
DBUG_ASSERT(row_len <= record_buffer->length);
read= azread(file_to_read, record_buffer->buffer, row_len, &error);
if (read != row_len || error)
{
DBUG_RETURN(error ? HA_ERR_CRASHED_ON_USAGE : HA_ERR_WRONG_IN_RECORD);
}
/* Copy null bits */
const uchar *ptr= record_buffer->buffer, *end= ptr+ row_len;
memcpy(record, ptr, table->s->null_bytes);
ptr+= table->s->null_bytes;
if (ptr > end)
DBUG_RETURN(HA_ERR_WRONG_IN_RECORD);
for (Field **field=table->field ; *field ; field++)
{
if (!((*field)->is_null_in_record(record)))
{
if (!(ptr= (*field)->unpack(record + (*field)->offset(table->record[0]),
ptr, end)))
DBUG_RETURN(HA_ERR_WRONG_IN_RECORD);
}
}
if (ptr != end)
DBUG_RETURN(HA_ERR_WRONG_IN_RECORD);
DBUG_RETURN(0);
}
int ha_archive::get_row_version3(azio_stream *file_to_read, uchar *buf)
{
DBUG_ENTER("ha_archive::get_row_version3");
int returnable= unpack_row(file_to_read, buf);
DBUG_RETURN(returnable);
}
int ha_archive::get_row_version2(azio_stream *file_to_read, uchar *buf)
{
unsigned int read;
int error;
uint *ptr, *end;
char *last;
size_t total_blob_length= 0;
MY_BITMAP *read_set= table->read_set;
DBUG_ENTER("ha_archive::get_row_version2");
read= azread(file_to_read, (voidp)buf, table->s->reclength, &error);
/* If we read nothing we are at the end of the file */
if (read == 0)
DBUG_RETURN(HA_ERR_END_OF_FILE);
if (read != table->s->reclength)
{
DBUG_PRINT("ha_archive::get_row_version2", ("Read %u bytes expected %u",
read,
(unsigned int)table->s->reclength));
DBUG_RETURN(HA_ERR_CRASHED_ON_USAGE);
}
if (error == Z_STREAM_ERROR || error == Z_DATA_ERROR )
DBUG_RETURN(HA_ERR_CRASHED_ON_USAGE);
/*
If the record is the wrong size, the file is probably damaged, unless
we are dealing with a delayed insert or a bulk insert.
*/
if ((ulong) read != table->s->reclength)
DBUG_RETURN(HA_ERR_END_OF_FILE);
/* Calculate blob length, we use this for our buffer */
for (ptr= table->s->blob_field, end=ptr + table->s->blob_fields ;
ptr != end ;
ptr++)
{
if (bitmap_is_set(read_set,
(((Field_blob*) table->field[*ptr])->field_index)))
total_blob_length += ((Field_blob*) table->field[*ptr])->get_length();
}
/* Adjust our row buffer if we need be */
buffer.alloc(total_blob_length);
last= (char *)buffer.ptr();
/* Loop through our blobs and read them */
for (ptr= table->s->blob_field, end=ptr + table->s->blob_fields ;
ptr != end ;
ptr++)
{
size_t size= ((Field_blob*) table->field[*ptr])->get_length();
if (size)
{
if (bitmap_is_set(read_set,
((Field_blob*) table->field[*ptr])->field_index))
{
read= azread(file_to_read, last, size, &error);
if (error)
DBUG_RETURN(HA_ERR_CRASHED_ON_USAGE);
if ((size_t) read != size)
DBUG_RETURN(HA_ERR_END_OF_FILE);
((Field_blob*) table->field[*ptr])->set_ptr(read, (uchar*) last);
last += size;
}
else
{
(void)azseek(file_to_read, size, SEEK_CUR);
}
}
}
DBUG_RETURN(0);
}
/*
Called during ORDER BY. Its position is either from being called sequentially
or by having had ha_archive::rnd_pos() called before it is called.
*/
int ha_archive::rnd_next(uchar *buf)
{
int rc;
DBUG_ENTER("ha_archive::rnd_next");
if (share->crashed)
DBUG_RETURN(HA_ERR_CRASHED_ON_USAGE);
if (!scan_rows)
{
rc= HA_ERR_END_OF_FILE;
goto end;
}
scan_rows--;
current_position= aztell(&archive);
rc= get_row(&archive, buf);
end:
DBUG_RETURN(rc);
}
/*
Thanks to the table flag HA_REC_NOT_IN_SEQ this will be called after
each call to ha_archive::rnd_next() if an ordering of the rows is
needed.
*/
void ha_archive::position(const uchar *record)
{
DBUG_ENTER("ha_archive::position");
my_store_ptr(ref, ref_length, current_position);
DBUG_VOID_RETURN;
}
/*
This is called after a table scan for each row if the results of the
scan need to be ordered. It will take *pos and use it to move the
cursor in the file so that the next row that is called is the
correctly ordered row.
*/
int ha_archive::rnd_pos(uchar * buf, uchar *pos)
{
int rc;
DBUG_ENTER("ha_archive::rnd_pos");
current_position= (my_off_t)my_get_ptr(pos, ref_length);
if (azseek(&archive, current_position, SEEK_SET) == (my_off_t)(-1L))
{
rc= HA_ERR_CRASHED_ON_USAGE;
goto end;
}
rc= get_row(&archive, buf);
end:
DBUG_RETURN(rc);
}
/**
@brief Check for upgrade
@param[in] check_opt check options
@return Completion status
@retval HA_ADMIN_OK No upgrade required
@retval HA_ADMIN_CORRUPT Cannot read meta-data
@retval HA_ADMIN_NEEDS_UPGRADE Upgrade required
*/
int ha_archive::check_for_upgrade(HA_CHECK_OPT *check_opt)
{
DBUG_ENTER("ha_archive::check_for_upgrade");
if (init_archive_reader())
DBUG_RETURN(HA_ADMIN_CORRUPT);
if (archive.version < ARCHIVE_VERSION)
DBUG_RETURN(HA_ADMIN_NEEDS_UPGRADE);
DBUG_RETURN(HA_ADMIN_OK);
}
/*
This method repairs the meta file. It does this by walking the datafile and
rewriting the meta file. If EXTENDED repair is requested, we attempt to
recover as much data as possible.
*/
int ha_archive::repair(THD* thd, HA_CHECK_OPT* check_opt)
{
DBUG_ENTER("ha_archive::repair");
int rc= optimize(thd, check_opt);
if (rc)
DBUG_RETURN(HA_ADMIN_CORRUPT);
share->crashed= FALSE;
DBUG_RETURN(0);
}
/*
The table can become fragmented if data was inserted, read, and then
inserted again. What we do is open up the file and recompress it completely.
*/
int ha_archive::optimize(THD* thd, HA_CHECK_OPT* check_opt)
{
int rc= 0;
azio_stream writer;
char writer_filename[FN_REFLEN];
DBUG_ENTER("ha_archive::optimize");
mysql_mutex_lock(&share->mutex);
if (init_archive_reader())
{
mysql_mutex_unlock(&share->mutex);
DBUG_RETURN(errno);
}
// now we close both our writer and our reader for the rename
if (share->archive_write_open)
{
azclose(&(share->archive_write));
share->archive_write_open= FALSE;
}
/* Lets create a file to contain the new data */
fn_format(writer_filename, share->table_name, "", ARN,
MY_REPLACE_EXT | MY_UNPACK_FILENAME);
if (!(azopen(&writer, writer_filename, O_CREAT|O_RDWR|O_BINARY)))
{
mysql_mutex_unlock(&share->mutex);
DBUG_RETURN(HA_ERR_CRASHED_ON_USAGE);
}
/*
Transfer the embedded FRM so that the file can be discoverable.
Write file offset is set to the end of the file.
*/
if ((rc= frm_copy(&archive, &writer)))
goto error;
/*
An extended rebuild is a lot more effort. We open up each row and re-record it.
Any dead rows are removed (aka rows that may have been partially recorded).
As of Archive format 3, this is the only type that is performed, before this
version it was just done on T_EXTEND
*/
if (1)
{
DBUG_PRINT("ha_archive", ("archive extended rebuild"));
/*
Now we will rewind the archive file so that we are positioned at the
start of the file.
*/
rc= read_data_header(&archive);
/*
On success of writing out the new header, we now fetch each row and
insert it into the new archive file.
*/
if (!rc)
{
share->rows_recorded= 0;
stats.auto_increment_value= 1;
share->archive_write.auto_increment= 0;
my_bitmap_map *org_bitmap= tmp_use_all_columns(table, table->read_set);
while (!(rc= get_row(&archive, table->record[0])))
{
real_write_row(table->record[0], &writer);
/*
Long term it should be possible to optimize this so that
it is not called on each row.
*/
if (table->found_next_number_field)
{
Field *field= table->found_next_number_field;
ulonglong auto_value=
(ulonglong) field->val_int(table->record[0] +
field->offset(table->record[0]));
if (share->archive_write.auto_increment < auto_value)
stats.auto_increment_value=
(share->archive_write.auto_increment= auto_value) + 1;
}
}
tmp_restore_column_map(table->read_set, org_bitmap);
share->rows_recorded= (ha_rows)writer.rows;
}
DBUG_PRINT("info", ("recovered %llu archive rows",
(unsigned long long)share->rows_recorded));
DBUG_PRINT("ha_archive", ("recovered %llu archive rows",
(unsigned long long)share->rows_recorded));
/*
If REPAIR ... EXTENDED is requested, try to recover as much data
from data file as possible. In this case if we failed to read a
record, we assume EOF. This allows massive data loss, but we can
hardly do more with broken zlib stream. And this is the only way
to restore at least what is still recoverable.
*/
if (rc && rc != HA_ERR_END_OF_FILE && !(check_opt->flags & T_EXTEND))
goto error;
}
azclose(&writer);
share->dirty= FALSE;
azclose(&archive);
// make the file we just wrote be our data file
rc= my_rename(writer_filename, share->data_file_name, MYF(0));
mysql_mutex_unlock(&share->mutex);
DBUG_RETURN(rc);
error:
DBUG_PRINT("ha_archive", ("Failed to recover, error was %d", rc));
azclose(&writer);
mysql_mutex_unlock(&share->mutex);
DBUG_RETURN(rc);
}
/*
Below is an example of how to setup row level locking.
*/
THR_LOCK_DATA **ha_archive::store_lock(THD *thd,
THR_LOCK_DATA **to,
enum thr_lock_type lock_type)
{
if (lock_type == TL_WRITE_DELAYED)
delayed_insert= TRUE;
else
delayed_insert= FALSE;
if (lock_type != TL_IGNORE && lock.type == TL_UNLOCK)
{
/*
Here is where we get into the guts of a row level lock.
If TL_UNLOCK is set
If we are not doing a LOCK TABLE, DELAYED LOCK or DISCARD/IMPORT
TABLESPACE, then allow multiple writers
*/
if ((lock_type >= TL_WRITE_CONCURRENT_INSERT &&
lock_type <= TL_WRITE) && delayed_insert == FALSE &&
!thd_in_lock_tables(thd)
&& !thd_tablespace_op(thd))
lock_type = TL_WRITE_ALLOW_WRITE;
/*
In queries of type INSERT INTO t1 SELECT ... FROM t2 ...
MySQL would use the lock TL_READ_NO_INSERT on t2, and that
would conflict with TL_WRITE_ALLOW_WRITE, blocking all inserts
to t2. Convert the lock to a normal read lock to allow
concurrent inserts to t2.
*/
if (lock_type == TL_READ_NO_INSERT && !thd_in_lock_tables(thd))
lock_type = TL_READ;
lock.type=lock_type;
}
*to++= &lock;
return to;
}
void ha_archive::update_create_info(HA_CREATE_INFO *create_info)
{
char tmp_real_path[FN_REFLEN];
DBUG_ENTER("ha_archive::update_create_info");
ha_archive::info(HA_STATUS_AUTO);
if (!(create_info->used_fields & HA_CREATE_USED_AUTO))
{
create_info->auto_increment_value= stats.auto_increment_value;
}
if (!(my_readlink(tmp_real_path, share->data_file_name, MYF(0))))
create_info->data_file_name= thd_strdup(ha_thd(), tmp_real_path);
DBUG_VOID_RETURN;
}
/*
Hints for optimizer, see ha_tina for more information
*/
int ha_archive::info(uint flag)
{
DBUG_ENTER("ha_archive::info");
flush_and_clear_pending_writes();
stats.deleted= 0;
DBUG_PRINT("ha_archive", ("Stats rows is %d\n", (int)stats.records));
/* Costs quite a bit more to get all information */
if (flag & (HA_STATUS_TIME | HA_STATUS_CONST | HA_STATUS_VARIABLE))
{
MY_STAT file_stat; // Stat information for the data file
(void) mysql_file_stat(/* arch_key_file_data */ 0, share->data_file_name, &file_stat, MYF(MY_WME));
if (flag & HA_STATUS_TIME)
stats.update_time= (ulong) file_stat.st_mtime;
if (flag & HA_STATUS_CONST)
{
stats.max_data_file_length= MAX_FILE_SIZE;
stats.create_time= (ulong) file_stat.st_ctime;
}
if (flag & HA_STATUS_VARIABLE)
{
stats.delete_length= 0;
stats.data_file_length= file_stat.st_size;
stats.index_file_length=0;
stats.mean_rec_length= stats.records ?
ulong(stats.data_file_length / stats.records) : table->s->reclength;
}
}
if (flag & HA_STATUS_AUTO)
{
if (init_archive_reader())
DBUG_RETURN(errno);
mysql_mutex_lock(&share->mutex);
azflush(&archive, Z_SYNC_FLUSH);
mysql_mutex_unlock(&share->mutex);
stats.auto_increment_value= archive.auto_increment + 1;
}
DBUG_RETURN(0);
}
int ha_archive::external_lock(THD *thd, int lock_type)
{
if (lock_type == F_RDLCK)
{
// We are going to read from the table. Flush any pending writes that we
// may have
flush_and_clear_pending_writes();
}
return 0;
}
void ha_archive::flush_and_clear_pending_writes()
{
mysql_mutex_lock(&share->mutex);
if (share->dirty)
{
DBUG_PRINT("ha_archive", ("archive flushing out rows for scan"));
DBUG_ASSERT(share->archive_write_open);
azflush(&(share->archive_write), Z_SYNC_FLUSH);
share->dirty= FALSE;
}
/*
This should be an accurate number now, though bulk and delayed inserts can
cause the number to be inaccurate.
*/
stats.records= share->rows_recorded;
mysql_mutex_unlock(&share->mutex);
}
int ha_archive::extra(enum ha_extra_function operation)
{
switch (operation) {
case HA_EXTRA_FLUSH:
mysql_mutex_lock(&share->mutex);
share->close_archive_writer();
mysql_mutex_unlock(&share->mutex);
break;
default:
break;
}
return 0;
}
/*
This method tells us that a bulk insert operation is about to occur. We set
a flag which will keep write_row from saying that its data is dirty. This in
turn will keep selects from causing a sync to occur.
Basically, yet another optimizations to keep compression working well.
*/
void ha_archive::start_bulk_insert(ha_rows rows, uint flags)
{
DBUG_ENTER("ha_archive::start_bulk_insert");
if (!rows || rows >= ARCHIVE_MIN_ROWS_TO_USE_BULK_INSERT)
bulk_insert= TRUE;
DBUG_VOID_RETURN;
}
/*
Other side of start_bulk_insert, is end_bulk_insert. Here we turn off the bulk insert
flag, and set the share dirty so that the next select will call sync for us.
*/
int ha_archive::end_bulk_insert()
{
DBUG_ENTER("ha_archive::end_bulk_insert");
bulk_insert= FALSE;
mysql_mutex_lock(&share->mutex);
if (share->archive_write_open)
share->dirty= true;
mysql_mutex_unlock(&share->mutex);
DBUG_RETURN(0);
}
/*
We cancel a truncate command. The only way to delete an archive table is to drop it.
This is done for security reasons. In a later version we will enable this by
allowing the user to select a different row format.
*/
int ha_archive::truncate()
{
DBUG_ENTER("ha_archive::truncate");
DBUG_RETURN(HA_ERR_WRONG_COMMAND);
}
/*
We just return state if asked.
*/
bool ha_archive::is_crashed() const
{
DBUG_ENTER("ha_archive::is_crashed");
DBUG_RETURN(share->crashed);
}
/*
Simple scan of the tables to make sure everything is ok.
*/
int ha_archive::check(THD* thd, HA_CHECK_OPT* check_opt)
{
int rc= 0;
const char *old_proc_info;
ha_rows count;
DBUG_ENTER("ha_archive::check");
old_proc_info= thd_proc_info(thd, "Checking table");
mysql_mutex_lock(&share->mutex);
count= share->rows_recorded;
/* Flush any waiting data */
if (share->archive_write_open)
azflush(&(share->archive_write), Z_SYNC_FLUSH);
mysql_mutex_unlock(&share->mutex);
if (init_archive_reader())
DBUG_RETURN(HA_ADMIN_CORRUPT);
/*
Now we will rewind the archive file so that we are positioned at the
start of the file.
*/
read_data_header(&archive);
for (ha_rows cur_count= count; cur_count; cur_count--)
{
if ((rc= get_row(&archive, table->record[0])))
goto error;
}
/*
Now read records that may have been inserted concurrently.
Acquire share->mutex so tail of the table is not modified by
concurrent writers.
*/
mysql_mutex_lock(&share->mutex);
count= share->rows_recorded - count;
if (share->archive_write_open)
azflush(&(share->archive_write), Z_SYNC_FLUSH);
while (!(rc= get_row(&archive, table->record[0])))
count--;
mysql_mutex_unlock(&share->mutex);
if ((rc && rc != HA_ERR_END_OF_FILE) || count)
goto error;
thd_proc_info(thd, old_proc_info);
DBUG_RETURN(HA_ADMIN_OK);
error:
thd_proc_info(thd, old_proc_info);
share->crashed= FALSE;
DBUG_RETURN(HA_ADMIN_CORRUPT);
}
/*
Check and repair the table if needed.
*/
bool ha_archive::check_and_repair(THD *thd)
{
HA_CHECK_OPT check_opt;
DBUG_ENTER("ha_archive::check_and_repair");
check_opt.init();
DBUG_RETURN(repair(thd, &check_opt));
}
archive_record_buffer *ha_archive::create_record_buffer(unsigned int length)
{
DBUG_ENTER("ha_archive::create_record_buffer");
archive_record_buffer *r;
if (!(r=
(archive_record_buffer*) my_malloc(sizeof(archive_record_buffer),
MYF(MY_WME))))
{
DBUG_RETURN(NULL); /* purecov: inspected */
}
r->length= (int)length;
if (!(r->buffer= (uchar*) my_malloc(r->length,
MYF(MY_WME))))
{
my_free(r);
DBUG_RETURN(NULL); /* purecov: inspected */
}
DBUG_RETURN(r);
}
void ha_archive::destroy_record_buffer(archive_record_buffer *r)
{
DBUG_ENTER("ha_archive::destroy_record_buffer");
my_free(r->buffer);
my_free(r);
DBUG_VOID_RETURN;
}
/*
In archive *any* ALTER should cause a table to be rebuilt,
no ALTER can be frm-only.
Because after any change to the frm file archive must update the
frm image in the ARZ file. And this cannot be done in-place, it
requires ARZ file to be recreated from scratch
*/
bool ha_archive::check_if_incompatible_data(HA_CREATE_INFO *info_arg,
uint table_changes)
{
return COMPATIBLE_DATA_NO;
}
struct st_mysql_storage_engine archive_storage_engine=
{ MYSQL_HANDLERTON_INTERFACE_VERSION };
maria_declare_plugin(archive)
{
MYSQL_STORAGE_ENGINE_PLUGIN,
&archive_storage_engine,
"ARCHIVE",
"Brian Aker, MySQL AB",
"gzip-compresses tables for a low storage footprint",
PLUGIN_LICENSE_GPL,
archive_db_init, /* Plugin Init */
NULL, /* Plugin Deinit */
0x0300 /* 3.0 */,
NULL, /* status variables */
NULL, /* system variables */
"1.0", /* string version */
MariaDB_PLUGIN_MATURITY_STABLE /* maturity */
}
maria_declare_plugin_end;
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