MDEV-371 Unique Index for long columns

This patch implements engine independent unique hash index.

Usage:- Unique HASH index can be created automatically for blob/varchar/test column whose key
 length > handler->max_key_length()
or it can be explicitly specified.

  Automatic Creation:-
   Create TABLE t1 (a blob unique);
  Explicit Creation:-
   Create TABLE t1 (a int , unique(a) using HASH);

Internal KEY_PART Representations:-
 Long unique key_info will have 2 representations.
 (lets understand this with an example create table t1(a blob, b blob , unique(a, b)); )

 1. User Given Representation:- key_info->key_part array will be similar to what user has defined.
 So in case of example it will have 2 key_parts (a, b)

 2. Storage Engine Representation:- In this case there will be only one key_part and it will point to
 HASH_FIELD. This key_part will be always after user defined key_parts.

 So:- User Given Representation          [a] [b] [hash_key_part]
                  key_info->key_part ----^
  Storage Engine Representation          [a] [b] [hash_key_part]
                  key_info->key_part ------------^

 Table->s->key_info will have User Given Representation, While table->key_info will have Storage Engine
 Representation.Representation can be changed into each other by calling re/setup_keyinfo_hash function.

Working:-

1. So when user specifies HASH_INDEX or key_length is > handler->max_key_length(), In mysql_prepare_create_table
One extra vfield is added (for each long unique key). And key_info->algorithm is set to HA_KEY_ALG_LONG_HASH.

2. In init_from_binary_frm_image values for hash_keypart is set (like fieldnr , field and flags)

3. In parse_vcol_defs, HASH_FIELD->vcol_info is created. Item_func_hash is used with list of Item_fields,
   When Explicit length is given by user then Item_left is used to concatenate Item_field values.

4. In ha_write_row/ha_update_row check_duplicate_long_entry_key is called which will create the hash key from
table->record[0] and then call ha_index_read_map , if we found duplicated hash , we will compare the result
field by field.

mysql-test/main/long_unique_innodb.test

@@ -0,0 +1,135 @@
+--source include/have_innodb.inc
+
+create table t1(a blob unique) engine= InnoDB;
+insert into t1 values('RUC');
+--error ER_DUP_ENTRY
+insert into t1 values ('RUC');
+drop table t1;
+
+--echo #test for concurrent insert of long unique in innodb
+create table t1(a blob unique) engine= InnoDB;
+show create table t1;
+connect ('con1', localhost, root,,);
+connect ('con2', localhost, root,,);
+
+--connection con1
+set innodb_lock_wait_timeout= 2;
+set  transaction isolation level READ UNCOMMITTED;
+start transaction;
+insert into t1 values('RUC');
+--connection con2
+set innodb_lock_wait_timeout= 2;
+set  transaction isolation level READ UNCOMMITTED;
+start transaction;
+--error ER_LOCK_WAIT_TIMEOUT
+insert into t1 values ('RUC');
+
+--connection con1
+commit;
+set  transaction isolation level READ COMMITTED;
+start transaction;
+insert into t1 values('RC');
+--connection con2
+commit;
+set  transaction isolation level READ COMMITTED;
+start transaction;
+--error ER_DUP_ENTRY
+--error ER_LOCK_WAIT_TIMEOUT
+insert into t1 values ('RC');
+commit;
+
+--connection con1
+commit;
+set  transaction isolation level REPEATABLE READ;
+start transaction;
+insert into t1 values('RR');
+--connection con2
+commit;
+set  transaction isolation level REPEATABLE READ;
+start transaction;
+--error ER_DUP_ENTRY
+--error ER_LOCK_WAIT_TIMEOUT
+insert into t1 values ('RR');
+
+--connection con1
+commit;
+set  transaction isolation level SERIALIZABLE;
+start transaction;
+insert into t1 values('S');
+--connection con2
+commit;
+set  transaction isolation level SERIALIZABLE;
+start transaction;
+--error ER_DUP_ENTRY
+--error ER_LOCK_WAIT_TIMEOUT
+insert into t1 values ('S');
+commit;
+
+--connection con1
+commit;
+
+select * from t1;
+drop table t1;
+
+create table t1(a blob unique) engine=Innodb;
+
+--connection con1
+set  transaction isolation level READ UNCOMMITTED;
+start transaction;
+insert into t1 values('RUC');
+--connection con2
+set  transaction isolation level READ UNCOMMITTED;
+start transaction;
+--send insert into t1 values ('RUC');
+--connection con1
+rollback;
+--connection con2
+--reap
+commit;
+
+--connection con1
+set  transaction isolation level READ COMMITTED;
+start transaction;
+insert into t1 values('RC');
+--connection con2
+set  transaction isolation level READ COMMITTED;
+start transaction;
+--send insert into t1 values ('RC');
+--connection con1
+rollback;
+--connection con2
+--reap
+commit;
+
+--connection con1
+set  transaction isolation level REPEATABLE READ;
+start transaction;
+insert into t1 values('RR');
+--connection con2
+set  transaction isolation level REPEATABLE READ;
+start transaction;
+--send insert into t1 values ('RR');
+--connection con1
+rollback;
+--connection con2
+--reap
+commit;
+
+--connection con1
+set  transaction isolation level SERIALIZABLE;
+start transaction;
+insert into t1 values('S');
+--connection con2
+set  transaction isolation level SERIALIZABLE;
+start transaction;
+--send insert into t1 values ('S');
+--connection con1
+rollback;
+--connection con2
+--reap
+commit;
+
+connection default;
+drop table t1;
+disconnect con1;
+disconnect con2;