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/*
Copyright (c) 2013 Monty Program 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
*/
/*
a engine that auto-creates tables with rows filled with sequential values
*/
#include <my_config.h>
#include <ctype.h>
#include <mysql_version.h>
#include <item.h>
#include <item_sum.h>
#include <handler.h>
#include <table.h>
#include <field.h>
#include <sql_limit.h>
static handlerton *sequence_hton;
class Sequence_share : public Handler_share {
public:
const char *name;
THR_LOCK lock;
ulonglong from, to, step;
bool reverse;
Sequence_share(const char *name_arg, ulonglong from_arg, ulonglong to_arg,
ulonglong step_arg, bool reverse_arg):
name(name_arg), from(from_arg), to(to_arg), step(step_arg),
reverse(reverse_arg)
{
thr_lock_init(&lock);
}
~Sequence_share()
{
thr_lock_delete(&lock);
}
};
class ha_seq final : public handler
{
private:
THR_LOCK_DATA lock;
Sequence_share *get_share();
ulonglong cur;
public:
Sequence_share *seqs;
ha_seq(handlerton *hton, TABLE_SHARE *table_arg)
: handler(hton, table_arg), seqs(0) { }
ulonglong table_flags() const
{ return HA_BINLOG_ROW_CAPABLE | HA_BINLOG_STMT_CAPABLE; }
/* open/close/locking */
int create(const char *name, TABLE *table_arg,
HA_CREATE_INFO *create_info)
{ return HA_ERR_WRONG_COMMAND; }
int open(const char *name, int mode, uint test_if_locked);
int close(void);
int delete_table(const char *name)
{
return 0;
}
THR_LOCK_DATA **store_lock(THD *, THR_LOCK_DATA **, enum thr_lock_type);
/* table scan */
int rnd_init(bool scan);
int rnd_next(unsigned char *buf);
void position(const uchar *record);
int rnd_pos(uchar *buf, uchar *pos);
int info(uint flag);
/* indexes */
ulong index_flags(uint inx, uint part, bool all_parts) const
{ return HA_READ_NEXT | HA_READ_PREV | HA_READ_ORDER |
HA_READ_RANGE | HA_KEYREAD_ONLY; }
uint max_supported_keys() const { return 1; }
int index_read_map(uchar *buf, const uchar *key, key_part_map keypart_map,
enum ha_rkey_function find_flag);
int index_next(uchar *buf);
int index_prev(uchar *buf);
int index_first(uchar *buf);
int index_last(uchar *buf);
ha_rows records_in_range(uint inx, const key_range *start_key,
const key_range *end_key, page_range *pages);
double scan_time() { return (double)nvalues(); }
double read_time(uint index, uint ranges, ha_rows rows) { return (double)rows; }
double keyread_time(uint index, uint ranges, ha_rows rows) { return (double)rows; }
private:
void set(uchar *buf);
ulonglong nvalues() { return (seqs->to - seqs->from)/seqs->step; }
};
THR_LOCK_DATA **ha_seq::store_lock(THD *thd, THR_LOCK_DATA **to,
enum thr_lock_type lock_type)
{
if (lock_type != TL_IGNORE && lock.type == TL_UNLOCK)
lock.type= TL_WRITE_ALLOW_WRITE;
*to ++= &lock;
return to;
}
void ha_seq::set(unsigned char *buf)
{
MY_BITMAP *old_map = dbug_tmp_use_all_columns(table, &table->write_set);
my_ptrdiff_t offset = (my_ptrdiff_t) (buf - table->record[0]);
Field *field = table->field[0];
field->move_field_offset(offset);
field->store(cur, true);
field->move_field_offset(-offset);
dbug_tmp_restore_column_map(&table->write_set, old_map);
}
int ha_seq::rnd_init(bool scan)
{
cur= seqs->reverse ? seqs->to : seqs->from;
return 0;
}
int ha_seq::rnd_next(unsigned char *buf)
{
if (seqs->reverse)
return index_prev(buf);
else
return index_next(buf);
}
void ha_seq::position(const uchar *record)
{
*(ulonglong*)ref= cur;
}
int ha_seq::rnd_pos(uchar *buf, uchar *pos)
{
cur= *(ulonglong*)pos;
return rnd_next(buf);
}
int ha_seq::info(uint flag)
{
if (flag & HA_STATUS_VARIABLE)
stats.records = nvalues();
return 0;
}
int ha_seq::index_read_map(uchar *buf, const uchar *key_arg,
key_part_map keypart_map,
enum ha_rkey_function find_flag)
{
ulonglong key= uint8korr(key_arg);
switch (find_flag) {
case HA_READ_AFTER_KEY:
key++;
// fall through
case HA_READ_KEY_OR_NEXT:
if (key <= seqs->from)
cur= seqs->from;
else
{
cur= (key - seqs->from + seqs->step - 1) / seqs->step * seqs->step + seqs->from;
if (cur >= seqs->to)
return HA_ERR_KEY_NOT_FOUND;
}
return index_next(buf);
case HA_READ_KEY_EXACT:
if ((key - seqs->from) % seqs->step != 0 || key < seqs->from || key >= seqs->to)
return HA_ERR_KEY_NOT_FOUND;
cur= key;
return index_next(buf);
case HA_READ_BEFORE_KEY:
key--;
// fall through
case HA_READ_PREFIX_LAST_OR_PREV:
if (key >= seqs->to)
cur= seqs->to;
else
{
if (key < seqs->from)
return HA_ERR_KEY_NOT_FOUND;
cur= (key - seqs->from) / seqs->step * seqs->step + seqs->from;
}
return index_prev(buf);
default: return HA_ERR_WRONG_COMMAND;
}
}
int ha_seq::index_next(uchar *buf)
{
if (cur == seqs->to)
return HA_ERR_END_OF_FILE;
set(buf);
cur+= seqs->step;
return 0;
}
int ha_seq::index_prev(uchar *buf)
{
if (cur == seqs->from)
return HA_ERR_END_OF_FILE;
cur-= seqs->step;
set(buf);
return 0;
}
int ha_seq::index_first(uchar *buf)
{
cur= seqs->from;
return index_next(buf);
}
int ha_seq::index_last(uchar *buf)
{
cur= seqs->to;
return index_prev(buf);
}
ha_rows ha_seq::records_in_range(uint inx, const key_range *min_key,
const key_range *max_key,
page_range *pages)
{
ulonglong kmin= min_key ? uint8korr(min_key->key) : seqs->from;
ulonglong kmax= max_key ? uint8korr(max_key->key) : seqs->to - 1;
if (kmin >= seqs->to || kmax < seqs->from || kmin > kmax)
return 0;
return (kmax - seqs->from) / seqs->step -
(kmin - seqs->from + seqs->step - 1) / seqs->step + 1;
}
int ha_seq::open(const char *name, int mode, uint test_if_locked)
{
if (!(seqs= get_share()))
return HA_ERR_OUT_OF_MEM;
DBUG_ASSERT(my_strcasecmp(table_alias_charset, name, seqs->name) == 0);
ref_length= sizeof(cur);
thr_lock_data_init(&seqs->lock,&lock,NULL);
return 0;
}
int ha_seq::close(void)
{
return 0;
}
static handler *create_handler(handlerton *hton, TABLE_SHARE *table,
MEM_ROOT *mem_root)
{
return new (mem_root) ha_seq(hton, table);
}
static bool parse_table_name(const char *name, size_t name_length,
ulonglong *from, ulonglong *to, ulonglong *step)
{
uint n0=0, n1= 0, n2= 0;
*step= 1;
// the table is discovered if its name matches the pattern of seq_1_to_10 or
// seq_1_to_10_step_3
sscanf(name, "seq_%llu_to_%n%llu%n_step_%llu%n",
from, &n0, to, &n1, step, &n2);
// I consider this a bug in sscanf() - when an unsigned number
// is requested, -5 should *not* be accepted. But is is :(
// hence the additional check below:
return
n0 == 0 || !isdigit(name[4]) || !isdigit(name[n0]) || // reject negative numbers
(n1 != name_length && n2 != name_length);
}
Sequence_share *ha_seq::get_share()
{
Sequence_share *tmp_share;
lock_shared_ha_data();
if (!(tmp_share= static_cast<Sequence_share*>(get_ha_share_ptr())))
{
bool reverse;
ulonglong from, to, step;
parse_table_name(table_share->table_name.str,
table_share->table_name.length, &from, &to, &step);
if ((reverse = from > to))
{
if (step > from - to)
to = from;
else
swap_variables(ulonglong, from, to);
/*
when keyread is allowed, optimizer will always prefer an index to a
table scan for our tables, and we'll never see the range reversed.
*/
table_share->keys_for_keyread.clear_all();
}
to= (to - from) / step * step + step + from;
tmp_share= new Sequence_share(table_share->normalized_path.str, from, to, step, reverse);
if (!tmp_share)
goto err;
set_ha_share_ptr(static_cast<Handler_share*>(tmp_share));
}
err:
unlock_shared_ha_data();
return tmp_share;
}
static int discover_table(handlerton *hton, THD *thd, TABLE_SHARE *share)
{
ulonglong from, to, step;
if (parse_table_name(share->table_name.str, share->table_name.length,
&from, &to, &step))
return HA_ERR_NO_SUCH_TABLE;
if (step == 0)
return HA_WRONG_CREATE_OPTION;
const char *sql="create table seq (seq bigint unsigned primary key)";
return share->init_from_sql_statement_string(thd, 0, sql, strlen(sql));
}
static int discover_table_existence(handlerton *hton, const char *db,
const char *table_name)
{
ulonglong from, to, step;
return !parse_table_name(table_name, strlen(table_name), &from, &to, &step);
}
static int dummy_commit_rollback(handlerton *, THD *, bool) { return 0; }
static int dummy_savepoint(handlerton *, THD *, void *) { return 0; }
/*****************************************************************************
Example of a simple group by handler for queries like:
SELECT SUM(seq) from sequence_table;
This implementation supports SUM() and COUNT() on primary key.
*****************************************************************************/
class ha_seq_group_by_handler: public group_by_handler
{
Select_limit_counters limit;
List<Item> *fields;
TABLE_LIST *table_list;
bool first_row;
public:
ha_seq_group_by_handler(THD *thd_arg, List<Item> *fields_arg,
TABLE_LIST *table_list_arg,
Select_limit_counters *orig_lim)
: group_by_handler(thd_arg, sequence_hton), limit(orig_lim[0]),
fields(fields_arg), table_list(table_list_arg)
{
// Reset limit because we are handling it now
orig_lim->set_unlimited();
}
~ha_seq_group_by_handler() {}
int init_scan() { first_row= 1 ; return 0; }
int next_row();
int end_scan() { return 0; }
};
static group_by_handler *
create_group_by_handler(THD *thd, Query *query)
{
ha_seq_group_by_handler *handler;
Item *item;
List_iterator_fast<Item> it(*query->select);
/* check that only one table is used in FROM clause and no sub queries */
if (query->from->next_local != 0)
return 0;
/* check that there is no where clause and no group_by */
if (query->where != 0 || query->group_by != 0)
return 0;
/*
Check that all fields are sum(primary_key) or count(primary_key)
For more ways to work with the field list and sum functions, see
opt_sum.cc::opt_sum_query().
*/
while ((item= it++))
{
Item *arg0;
Field *field;
if (item->type() != Item::SUM_FUNC_ITEM ||
(((Item_sum*) item)->sum_func() != Item_sum::SUM_FUNC &&
((Item_sum*) item)->sum_func() != Item_sum::COUNT_FUNC))
return 0; // Not a SUM() function
arg0= ((Item_sum*) item)->get_arg(0);
if (arg0->type() != Item::FIELD_ITEM)
{
if ((((Item_sum*) item)->sum_func() == Item_sum::COUNT_FUNC) &&
arg0->basic_const_item())
continue; // Allow count(1)
return 0;
}
field= ((Item_field*) arg0)->field;
/*
Check that we are using the sequence table (the only table in the FROM
clause) and not an outer table.
*/
if (field->table != query->from->table)
return 0;
/* Check that we are using a SUM() on the primary key */
if (strcmp(field->field_name.str, "seq"))
return 0;
}
/* Create handler and return it */
handler= new ha_seq_group_by_handler(thd, query->select, query->from,
query->limit);
return handler;
}
int ha_seq_group_by_handler::next_row()
{
List_iterator_fast<Item> it(*fields);
Item_sum *item_sum;
Sequence_share *seqs= ((ha_seq*) table_list->table->file)->seqs;
DBUG_ENTER("ha_seq_group_by_handler::next_row");
/*
Check if this is the first call to the function. If not, we have already
returned all data.
*/
if (!first_row ||
limit.get_offset_limit() > 0 ||
limit.get_select_limit() == 0)
DBUG_RETURN(HA_ERR_END_OF_FILE);
first_row= 0;
/* Pointer to first field in temporary table where we should store summary*/
Field **field_ptr= table->field;
ulonglong elements= (seqs->to - seqs->from + seqs->step - 1) / seqs->step;
while ((item_sum= (Item_sum*) it++))
{
Field *field= *(field_ptr++);
switch (item_sum->sum_func()) {
case Item_sum::COUNT_FUNC:
{
Item *arg0= ((Item_sum*) item_sum)->get_arg(0);
if (arg0->basic_const_item() && arg0->is_null())
field->store(0LL, 1);
else
field->store((longlong) elements, 1);
break;
}
case Item_sum::SUM_FUNC:
{
/* Calculate SUM(f, f+step, f+step*2 ... to) */
ulonglong sum;
sum= seqs->from * elements + seqs->step * (elements*elements-elements)/2;
field->store((longlong) sum, 1);
break;
}
default:
DBUG_ASSERT(0);
}
field->set_notnull();
}
DBUG_RETURN(0);
}
/*****************************************************************************
Initialize the interface between the sequence engine and MariaDB
*****************************************************************************/
static int drop_table(handlerton *hton, const char *path)
{
const char *name= strrchr(path, FN_LIBCHAR)+1;
ulonglong from, to, step;
if (parse_table_name(name, strlen(name), &from, &to, &step))
return ENOENT;
return 0;
}
static int init(void *p)
{
handlerton *hton= (handlerton *)p;
sequence_hton= hton;
hton->create= create_handler;
hton->drop_table= drop_table;
hton->discover_table= discover_table;
hton->discover_table_existence= discover_table_existence;
hton->commit= hton->rollback= dummy_commit_rollback;
hton->savepoint_set= hton->savepoint_rollback= hton->savepoint_release=
dummy_savepoint;
hton->create_group_by= create_group_by_handler;
return 0;
}
static struct st_mysql_storage_engine descriptor =
{ MYSQL_HANDLERTON_INTERFACE_VERSION };
maria_declare_plugin(sequence)
{
MYSQL_STORAGE_ENGINE_PLUGIN,
&descriptor,
"SEQUENCE",
"Sergei Golubchik",
"Generated tables filled with sequential values",
PLUGIN_LICENSE_GPL,
init,
NULL,
0x0100,
NULL,
NULL,
"0.1",
MariaDB_PLUGIN_MATURITY_STABLE
}
maria_declare_plugin_end;
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