mariadb/sql/sql_schema.cc

/*
 Copyright (c) 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 St, Fifth Floor, Boston, MA 02110-1335  USA */

#include "mariadb.h"
#include "sql_type.h"
#include "sql_schema.h"
#include "sql_class.h"

class Schema_oracle: public Schema
{
public:
  Schema_oracle(const LEX_CSTRING &name)
   :Schema(name)
  { }
  const Type_handler *map_data_type(THD *thd, const Type_handler *src)
                                    const
  {
    if (src == &type_handler_newdate)
      return thd->type_handler_for_datetime();
    return src;
  }

  Create_func *find_native_function_builder(THD *thd, const LEX_CSTRING &name)
                                                                         const
  {
    return native_functions_hash_oracle.find(thd, name);
  }

  Item *make_item_func_replace(THD *thd,
                               Item *subj,
                               Item *find,
                               Item *replace) const;
  Item *make_item_func_substr(THD *thd,
                              const Lex_substring_spec_st &spec) const;
  Item *make_item_func_trim(THD *thd, const Lex_trim_st &spec) const;
};


class Schema_maxdb: public Schema
{
public:
  Schema_maxdb(const LEX_CSTRING &name)
   :Schema(name)
  { }
  const Type_handler *map_data_type(THD *thd, const Type_handler *src)
                                    const
  {
    if (src == &type_handler_timestamp ||
        src == &type_handler_timestamp2)
      return thd->type_handler_for_datetime();
    return src;
  }
};


Schema        mariadb_schema(Lex_cstring(STRING_WITH_LEN("mariadb_schema")));
Schema_oracle oracle_schema(Lex_cstring(STRING_WITH_LEN("oracle_schema")));
Schema_maxdb  maxdb_schema(Lex_cstring(STRING_WITH_LEN("maxdb_schema")));

const Schema &oracle_schema_ref= oracle_schema;

Schema *Schema::find_by_name(const LEX_CSTRING &name)
{
  DBUG_ASSERT(name.str);
  if (mariadb_schema.eq_name(name))
    return &mariadb_schema;
  if (oracle_schema.eq_name(name))
    return &oracle_schema;
  if (maxdb_schema.eq_name(name))
    return &maxdb_schema;
  return NULL;
}


Schema *Schema::find_implied(THD *thd)
{
  if (thd->variables.sql_mode & MODE_ORACLE)
    return &oracle_schema;
  if (thd->variables.sql_mode & MODE_MAXDB)
    return &maxdb_schema;
  return &mariadb_schema;
}


Create_func *
Schema::find_native_function_builder(THD *thd, const LEX_CSTRING &name) const
{
  return native_functions_hash.find(thd, name);
}


Item *Schema::make_item_func_call_native(THD *thd,
                                         const Lex_ident_sys &name,
                                         List<Item> *args) const
{
  Create_func *builder= find_native_function_builder(thd, name);
  if (builder)
    return builder->create_func(thd, &name, args);
  my_error(ER_FUNCTION_NOT_DEFINED, MYF(0), name.str);
  return NULL;
}


Item *Schema::make_item_func_replace(THD *thd,
                                     Item *subj,
                                     Item *find,
                                     Item *replace) const
{
  return new (thd->mem_root) Item_func_replace(thd, subj, find, replace);
}


Item *Schema::make_item_func_substr(THD *thd,
                                    const Lex_substring_spec_st &spec) const
{
  return spec.m_for ?
    new (thd->mem_root) Item_func_substr(thd, spec.m_subject, spec.m_from,
                                              spec.m_for) :
    new (thd->mem_root) Item_func_substr(thd, spec.m_subject, spec.m_from);
}


Item *Schema::make_item_func_trim(THD *thd, const Lex_trim_st &spec) const
{
  return spec.make_item_func_trim_std(thd);
}


Item *Schema_oracle::make_item_func_replace(THD *thd,
                                            Item *subj,
                                            Item *find,
                                            Item *replace) const
{
  return new (thd->mem_root) Item_func_replace_oracle(thd, subj, find, replace);
}


Item *Schema_oracle::make_item_func_substr(THD *thd,
                                    const Lex_substring_spec_st &spec) const
{
  return spec.m_for ?
    new (thd->mem_root) Item_func_substr_oracle(thd, spec.m_subject,
                                                     spec.m_from,
                                                     spec.m_for) :
    new (thd->mem_root) Item_func_substr_oracle(thd, spec.m_subject,
                                                     spec.m_from);
}


Item *Schema_oracle::make_item_func_trim(THD *thd,
                                         const Lex_trim_st &spec) const
{
  return spec.make_item_func_trim_oracle(thd);
}
MDEV-19632 Replication aborts with ER_SLAVE_CONVERSION_FAILED upon CREATE ... SELECT in ORACLE mode - Adding optional qualifiers to data types: CREATE TABLE t1 (a schema.DATE); Qualifiers now work only for three pre-defined schemas: mariadb_schema oracle_schema maxdb_schema These schemas are virtual (hard-coded) for now, but may turn into real databases on disk in the future. - mariadb_schema.TYPE now always resolves to a true MariaDB data type TYPE without sql_mode specific translations. - oracle_schema.DATE translates to MariaDB DATETIME. - maxdb_schema.TIMESTAMP translates to MariaDB DATETIME. - Fixing SHOW CREATE TABLE to use a qualifier for a data type TYPE if the current sql_mode translates TYPE to something else. The above changes fix the reported problem, so this script: SET sql_mode=ORACLE; CREATE TABLE t2 AS SELECT mariadb_date_column FROM t1; is now replicated as: SET sql_mode=ORACLE; CREATE TABLE t2 (mariadb_date_column mariadb_schema.DATE); and the slave can unambiguously treat DATE as the true MariaDB DATE without ORACLE specific translation to DATETIME. Similar, SET sql_mode=MAXDB; CREATE TABLE t2 AS SELECT mariadb_timestamp_column FROM t1; is now replicated as: SET sql_mode=MAXDB; CREATE TABLE t2 (mariadb_timestamp_column mariadb_schema.TIMESTAMP); so the slave treats TIMESTAMP as the true MariaDB TIMESTAMP without MAXDB specific translation to DATETIME. 2020-07-08 06:31:32 +02:00			`/*`
			`Copyright (c) 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 St, Fifth Floor, Boston, MA 02110-1335 USA */`

			`#include "mariadb.h"`
			`#include "sql_type.h"`
			`#include "sql_schema.h"`
			`#include "sql_class.h"`

			`class Schema_oracle: public Schema`
			`{`
			`public:`
			`Schema_oracle(const LEX_CSTRING &name)`
			`:Schema(name)`
			`{ }`
			`const Type_handler map_data_type(THD thd, const Type_handler *src)`
			`const`
			`{`
			`if (src == &type_handler_newdate)`
			`return thd->type_handler_for_datetime();`
			`return src;`
			`}`
MDEV-31153 New methods Schema::make_item_func_* for REPLACE, SUBSTRING, TRIM Adding virtual methods to class Schema: make_item_func_replace() make_item_func_substr() make_item_func_trim() This is a non-functional preparatory change for MDEV-27744. 2023-04-29 05:39:38 +02:00
MDEV-27744 LPAD in vcol created in ORACLE mode makes table corrupted in non-ORACLE The crash happened with an indexed virtual column whose value is evaluated using a function that has a different meaning in sql_mode='' vs sql_mode=ORACLE: - DECODE() - LTRIM() - RTRIM() - LPAD() - RPAD() - REPLACE() - SUBSTR() For example: CREATE TABLE t1 ( b VARCHAR(1), g CHAR(1) GENERATED ALWAYS AS (SUBSTR(b,0,0)) VIRTUAL, KEY g(g) ); So far we had replacement XXX_ORACLE() functions for all mentioned function, e.g. SUBSTR_ORACLE() for SUBSTR(). So it was possible to correctly re-parse SUBSTR_ORACLE() even in sql_mode=''. But it was not possible to re-parse the MariaDB version of SUBSTR() after switching to sql_mode=ORACLE. It was erroneously mis-interpreted as SUBSTR_ORACLE(). As a result, this combination worked fine: SET sql_mode=ORACLE; CREATE TABLE t1 ... g CHAR(1) GENERATED ALWAYS AS (SUBSTR(b,0,0)) VIRTUAL, ...; INSERT ... FLUSH TABLES; SET sql_mode=''; INSERT ... But the other way around it crashed: SET sql_mode=''; CREATE TABLE t1 ... g CHAR(1) GENERATED ALWAYS AS (SUBSTR(b,0,0)) VIRTUAL, ...; INSERT ... FLUSH TABLES; SET sql_mode=ORACLE; INSERT ... At CREATE time, SUBSTR was instantiated as Item_func_substr and printed in the FRM file as substr(). At re-open time with sql_mode=ORACLE, "substr()" was erroneously instantiated as Item_func_substr_oracle. Fix: The fix proposes a symmetric solution. It provides a way to re-parse reliably all sql_mode dependent functions to their original CREATE TABLE time meaning, no matter what the open-time sql_mode is. We take advantage of the same idea we previously used to resolve sql_mode dependent data types. Now all sql_mode dependent functions are printed by SHOW using a schema qualifier when the current sql_mode differs from the function sql_mode: SET sql_mode=''; CREATE TABLE t1 ... SUBSTR(a,b,c) ..; SET sql_mode=ORACLE; SHOW CREATE TABLE t1; -> mariadb_schema.substr(a,b,c) SET sql_mode=ORACLE; CREATE TABLE t2 ... SUBSTR(a,b,c) ..; SET sql_mode=''; SHOW CREATE TABLE t1; -> oracle_schema.substr(a,b,c) Old replacement names like substr_oracle() are still understood for backward compatibility and used in FRM files (for downgrade compatibility), but they are not printed by SHOW any more. 2022-04-04 12:50:21 +02:00			`Create_func find_native_function_builder(THD thd, const LEX_CSTRING &name)`
			`const`
			`{`
			`return native_functions_hash_oracle.find(thd, name);`
			`}`

MDEV-31153 New methods Schema::make_item_func_* for REPLACE, SUBSTRING, TRIM Adding virtual methods to class Schema: make_item_func_replace() make_item_func_substr() make_item_func_trim() This is a non-functional preparatory change for MDEV-27744. 2023-04-29 05:39:38 +02:00			`Item make_item_func_replace(THD thd,`
			`Item *subj,`
			`Item *find,`
			`Item *replace) const;`
			`Item make_item_func_substr(THD thd,`
			`const Lex_substring_spec_st &spec) const;`
			`Item make_item_func_trim(THD thd, const Lex_trim_st &spec) const;`
MDEV-19632 Replication aborts with ER_SLAVE_CONVERSION_FAILED upon CREATE ... SELECT in ORACLE mode - Adding optional qualifiers to data types: CREATE TABLE t1 (a schema.DATE); Qualifiers now work only for three pre-defined schemas: mariadb_schema oracle_schema maxdb_schema These schemas are virtual (hard-coded) for now, but may turn into real databases on disk in the future. - mariadb_schema.TYPE now always resolves to a true MariaDB data type TYPE without sql_mode specific translations. - oracle_schema.DATE translates to MariaDB DATETIME. - maxdb_schema.TIMESTAMP translates to MariaDB DATETIME. - Fixing SHOW CREATE TABLE to use a qualifier for a data type TYPE if the current sql_mode translates TYPE to something else. The above changes fix the reported problem, so this script: SET sql_mode=ORACLE; CREATE TABLE t2 AS SELECT mariadb_date_column FROM t1; is now replicated as: SET sql_mode=ORACLE; CREATE TABLE t2 (mariadb_date_column mariadb_schema.DATE); and the slave can unambiguously treat DATE as the true MariaDB DATE without ORACLE specific translation to DATETIME. Similar, SET sql_mode=MAXDB; CREATE TABLE t2 AS SELECT mariadb_timestamp_column FROM t1; is now replicated as: SET sql_mode=MAXDB; CREATE TABLE t2 (mariadb_timestamp_column mariadb_schema.TIMESTAMP); so the slave treats TIMESTAMP as the true MariaDB TIMESTAMP without MAXDB specific translation to DATETIME. 2020-07-08 06:31:32 +02:00			`};`


			`class Schema_maxdb: public Schema`
			`{`
			`public:`
			`Schema_maxdb(const LEX_CSTRING &name)`
			`:Schema(name)`
			`{ }`
			`const Type_handler map_data_type(THD thd, const Type_handler *src)`
			`const`
			`{`
			`if (src == &type_handler_timestamp \|\|`
			`src == &type_handler_timestamp2)`
			`return thd->type_handler_for_datetime();`
			`return src;`
			`}`
			`};`


			`Schema mariadb_schema(Lex_cstring(STRING_WITH_LEN("mariadb_schema")));`
			`Schema_oracle oracle_schema(Lex_cstring(STRING_WITH_LEN("oracle_schema")));`
			`Schema_maxdb maxdb_schema(Lex_cstring(STRING_WITH_LEN("maxdb_schema")));`

MDEV-27744 LPAD in vcol created in ORACLE mode makes table corrupted in non-ORACLE The crash happened with an indexed virtual column whose value is evaluated using a function that has a different meaning in sql_mode='' vs sql_mode=ORACLE: - DECODE() - LTRIM() - RTRIM() - LPAD() - RPAD() - REPLACE() - SUBSTR() For example: CREATE TABLE t1 ( b VARCHAR(1), g CHAR(1) GENERATED ALWAYS AS (SUBSTR(b,0,0)) VIRTUAL, KEY g(g) ); So far we had replacement XXX_ORACLE() functions for all mentioned function, e.g. SUBSTR_ORACLE() for SUBSTR(). So it was possible to correctly re-parse SUBSTR_ORACLE() even in sql_mode=''. But it was not possible to re-parse the MariaDB version of SUBSTR() after switching to sql_mode=ORACLE. It was erroneously mis-interpreted as SUBSTR_ORACLE(). As a result, this combination worked fine: SET sql_mode=ORACLE; CREATE TABLE t1 ... g CHAR(1) GENERATED ALWAYS AS (SUBSTR(b,0,0)) VIRTUAL, ...; INSERT ... FLUSH TABLES; SET sql_mode=''; INSERT ... But the other way around it crashed: SET sql_mode=''; CREATE TABLE t1 ... g CHAR(1) GENERATED ALWAYS AS (SUBSTR(b,0,0)) VIRTUAL, ...; INSERT ... FLUSH TABLES; SET sql_mode=ORACLE; INSERT ... At CREATE time, SUBSTR was instantiated as Item_func_substr and printed in the FRM file as substr(). At re-open time with sql_mode=ORACLE, "substr()" was erroneously instantiated as Item_func_substr_oracle. Fix: The fix proposes a symmetric solution. It provides a way to re-parse reliably all sql_mode dependent functions to their original CREATE TABLE time meaning, no matter what the open-time sql_mode is. We take advantage of the same idea we previously used to resolve sql_mode dependent data types. Now all sql_mode dependent functions are printed by SHOW using a schema qualifier when the current sql_mode differs from the function sql_mode: SET sql_mode=''; CREATE TABLE t1 ... SUBSTR(a,b,c) ..; SET sql_mode=ORACLE; SHOW CREATE TABLE t1; -> mariadb_schema.substr(a,b,c) SET sql_mode=ORACLE; CREATE TABLE t2 ... SUBSTR(a,b,c) ..; SET sql_mode=''; SHOW CREATE TABLE t1; -> oracle_schema.substr(a,b,c) Old replacement names like substr_oracle() are still understood for backward compatibility and used in FRM files (for downgrade compatibility), but they are not printed by SHOW any more. 2022-04-04 12:50:21 +02:00			`const Schema &oracle_schema_ref= oracle_schema;`
MDEV-19632 Replication aborts with ER_SLAVE_CONVERSION_FAILED upon CREATE ... SELECT in ORACLE mode - Adding optional qualifiers to data types: CREATE TABLE t1 (a schema.DATE); Qualifiers now work only for three pre-defined schemas: mariadb_schema oracle_schema maxdb_schema These schemas are virtual (hard-coded) for now, but may turn into real databases on disk in the future. - mariadb_schema.TYPE now always resolves to a true MariaDB data type TYPE without sql_mode specific translations. - oracle_schema.DATE translates to MariaDB DATETIME. - maxdb_schema.TIMESTAMP translates to MariaDB DATETIME. - Fixing SHOW CREATE TABLE to use a qualifier for a data type TYPE if the current sql_mode translates TYPE to something else. The above changes fix the reported problem, so this script: SET sql_mode=ORACLE; CREATE TABLE t2 AS SELECT mariadb_date_column FROM t1; is now replicated as: SET sql_mode=ORACLE; CREATE TABLE t2 (mariadb_date_column mariadb_schema.DATE); and the slave can unambiguously treat DATE as the true MariaDB DATE without ORACLE specific translation to DATETIME. Similar, SET sql_mode=MAXDB; CREATE TABLE t2 AS SELECT mariadb_timestamp_column FROM t1; is now replicated as: SET sql_mode=MAXDB; CREATE TABLE t2 (mariadb_timestamp_column mariadb_schema.TIMESTAMP); so the slave treats TIMESTAMP as the true MariaDB TIMESTAMP without MAXDB specific translation to DATETIME. 2020-07-08 06:31:32 +02:00
			`Schema *Schema::find_by_name(const LEX_CSTRING &name)`
			`{`
			`DBUG_ASSERT(name.str);`
			`if (mariadb_schema.eq_name(name))`
			`return &mariadb_schema;`
			`if (oracle_schema.eq_name(name))`
			`return &oracle_schema;`
			`if (maxdb_schema.eq_name(name))`
			`return &maxdb_schema;`
			`return NULL;`
			`}`


			`Schema Schema::find_implied(THD thd)`
			`{`
			`if (thd->variables.sql_mode & MODE_ORACLE)`
			`return &oracle_schema;`
			`if (thd->variables.sql_mode & MODE_MAXDB)`
			`return &maxdb_schema;`
			`return &mariadb_schema;`
			`}`
MDEV-31153 New methods Schema::make_item_func_* for REPLACE, SUBSTRING, TRIM Adding virtual methods to class Schema: make_item_func_replace() make_item_func_substr() make_item_func_trim() This is a non-functional preparatory change for MDEV-27744. 2023-04-29 05:39:38 +02:00

MDEV-27744 LPAD in vcol created in ORACLE mode makes table corrupted in non-ORACLE The crash happened with an indexed virtual column whose value is evaluated using a function that has a different meaning in sql_mode='' vs sql_mode=ORACLE: - DECODE() - LTRIM() - RTRIM() - LPAD() - RPAD() - REPLACE() - SUBSTR() For example: CREATE TABLE t1 ( b VARCHAR(1), g CHAR(1) GENERATED ALWAYS AS (SUBSTR(b,0,0)) VIRTUAL, KEY g(g) ); So far we had replacement XXX_ORACLE() functions for all mentioned function, e.g. SUBSTR_ORACLE() for SUBSTR(). So it was possible to correctly re-parse SUBSTR_ORACLE() even in sql_mode=''. But it was not possible to re-parse the MariaDB version of SUBSTR() after switching to sql_mode=ORACLE. It was erroneously mis-interpreted as SUBSTR_ORACLE(). As a result, this combination worked fine: SET sql_mode=ORACLE; CREATE TABLE t1 ... g CHAR(1) GENERATED ALWAYS AS (SUBSTR(b,0,0)) VIRTUAL, ...; INSERT ... FLUSH TABLES; SET sql_mode=''; INSERT ... But the other way around it crashed: SET sql_mode=''; CREATE TABLE t1 ... g CHAR(1) GENERATED ALWAYS AS (SUBSTR(b,0,0)) VIRTUAL, ...; INSERT ... FLUSH TABLES; SET sql_mode=ORACLE; INSERT ... At CREATE time, SUBSTR was instantiated as Item_func_substr and printed in the FRM file as substr(). At re-open time with sql_mode=ORACLE, "substr()" was erroneously instantiated as Item_func_substr_oracle. Fix: The fix proposes a symmetric solution. It provides a way to re-parse reliably all sql_mode dependent functions to their original CREATE TABLE time meaning, no matter what the open-time sql_mode is. We take advantage of the same idea we previously used to resolve sql_mode dependent data types. Now all sql_mode dependent functions are printed by SHOW using a schema qualifier when the current sql_mode differs from the function sql_mode: SET sql_mode=''; CREATE TABLE t1 ... SUBSTR(a,b,c) ..; SET sql_mode=ORACLE; SHOW CREATE TABLE t1; -> mariadb_schema.substr(a,b,c) SET sql_mode=ORACLE; CREATE TABLE t2 ... SUBSTR(a,b,c) ..; SET sql_mode=''; SHOW CREATE TABLE t1; -> oracle_schema.substr(a,b,c) Old replacement names like substr_oracle() are still understood for backward compatibility and used in FRM files (for downgrade compatibility), but they are not printed by SHOW any more. 2022-04-04 12:50:21 +02:00			`Create_func *`
			`Schema::find_native_function_builder(THD *thd, const LEX_CSTRING &name) const`
			`{`
			`return native_functions_hash.find(thd, name);`
			`}`


			`Item Schema::make_item_func_call_native(THD thd,`
			`const Lex_ident_sys &name,`
			`List<Item> *args) const`
			`{`
			`Create_func *builder= find_native_function_builder(thd, name);`
			`if (builder)`
			`return builder->create_func(thd, &name, args);`
			`my_error(ER_FUNCTION_NOT_DEFINED, MYF(0), name.str);`
			`return NULL;`
			`}`



MDEV-31153 New methods Schema::make_item_func_* for REPLACE, SUBSTRING, TRIM Adding virtual methods to class Schema: make_item_func_replace() make_item_func_substr() make_item_func_trim() This is a non-functional preparatory change for MDEV-27744. 2023-04-29 05:39:38 +02:00			`Item Schema::make_item_func_replace(THD thd,`
			`Item *subj,`
			`Item *find,`
			`Item *replace) const`
			`{`
			`return new (thd->mem_root) Item_func_replace(thd, subj, find, replace);`
			`}`


			`Item Schema::make_item_func_substr(THD thd,`
			`const Lex_substring_spec_st &spec) const`
			`{`
			`return spec.m_for ?`
			`new (thd->mem_root) Item_func_substr(thd, spec.m_subject, spec.m_from,`
			`spec.m_for) :`
			`new (thd->mem_root) Item_func_substr(thd, spec.m_subject, spec.m_from);`
			`}`


			`Item Schema::make_item_func_trim(THD thd, const Lex_trim_st &spec) const`
			`{`
			`return spec.make_item_func_trim_std(thd);`
			`}`


			`Item Schema_oracle::make_item_func_replace(THD thd,`
			`Item *subj,`
			`Item *find,`
			`Item *replace) const`
			`{`
			`return new (thd->mem_root) Item_func_replace_oracle(thd, subj, find, replace);`
			`}`


			`Item Schema_oracle::make_item_func_substr(THD thd,`
			`const Lex_substring_spec_st &spec) const`
			`{`
			`return spec.m_for ?`
			`new (thd->mem_root) Item_func_substr_oracle(thd, spec.m_subject,`
			`spec.m_from,`
			`spec.m_for) :`
			`new (thd->mem_root) Item_func_substr_oracle(thd, spec.m_subject,`
			`spec.m_from);`
			`}`


			`Item Schema_oracle::make_item_func_trim(THD thd,`
			`const Lex_trim_st &spec) const`
			`{`
			`return spec.make_item_func_trim_oracle(thd);`
			`}`