Commit e9e20259 authored by unknown's avatar unknown

Merge mskold@bk-internal.mysql.com:/home/bk/mysql-5.1-new

into  mysql.com:/usr/local/home/marty/MySQL/mysql-5.1-new


storage/ndb/src/ndbapi/NdbTransaction.cpp:
  Auto merged
parents 47893e23 e6cb397d
......@@ -577,6 +577,25 @@ pk1 b c
2 2 17
4 4 3
6 6 3
DELETE FROM t1;
CREATE UNIQUE INDEX bi ON t1(b);
INSERT INTO t1 VALUES
(1,1,1),(2,2,2),(3,3,3),(4,4,4),(5,5,5),
(6,6,6),(7,7,7),(8,8,8),(9,9,9),(10,10,10);
INSERT INTO t1 VALUES(0,1,0),(21,21,21) ON DUPLICATE KEY UPDATE pk1=b+10,b=b+10;
select * from t1 order by pk1;
pk1 b c
2 2 2
3 3 3
4 4 4
5 5 5
6 6 6
7 7 7
8 8 8
9 9 9
10 10 10
11 11 1
21 21 21
DROP TABLE t1;
CREATE TABLE t1(a INT) ENGINE=ndb;
INSERT IGNORE INTO t1 VALUES (1);
......@@ -586,7 +605,7 @@ INSERT IGNORE INTO t1 SELECT a FROM t1;
INSERT IGNORE INTO t1 SELECT a FROM t1;
INSERT IGNORE INTO t1 VALUES (1);
INSERT IGNORE INTO t1 VALUES (1);
SELECT * FROM t1;
SELECT * FROM t1 ORDER BY a;
a
1
1
......@@ -606,4 +625,11 @@ a
1
1
1
DELETE FROM t1;
CREATE UNIQUE INDEX ai ON t1(a);
INSERT IGNORE INTO t1 VALUES (1);
INSERT IGNORE INTO t1 VALUES (1);
SELECT * FROM t1 ORDER BY a;
a
1
DROP TABLE t1;
......@@ -19,3 +19,15 @@ gesuchnr benutzer_id
2 1
3 2
drop table t1;
CREATE TABLE t1(i INT PRIMARY KEY AUTO_INCREMENT,
j INT,
k INT,
UNIQUE INDEX(j)
) ENGINE = ndb;
INSERT INTO t1 VALUES (1,1,23),(2,2,24);
REPLACE INTO t1 (j,k) VALUES (1,42);
REPLACE INTO t1 (i,j) VALUES (17,2);
SELECT * from t1 ORDER BY i;
i j k
3 1 42
17 2 24
......@@ -30,16 +30,16 @@ a b
2 2
3 3
4 4
5 5
6 6
7 5
10 6
SELECT * FROM t1 ORDER BY a;
a b
1 1
2 2
3 3
4 4
5 5
6 6
7 5
10 6
drop table t1;
CREATE TABLE t1 (
a int unsigned not null auto_increment primary key,
......
......@@ -32,7 +32,6 @@ rpl_ndb_auto_inc : Bug#17086
rpl_ndb_ddl : master hangs
#rpl_ndb_delete_nowhere : Bug#17400: delete & update of rows in table without pk fails
rpl_ndb_innodb2ndb : Bug#18261: Cluster Replication: tests rpl_ndb_xxx2ndb fails
rpl_ndb_insert_ignore : Bugs: #17431: INSERT IGNORE INTO returns failed: 1296
rpl_ndb_myisam2ndb : Bug#18261: Cluster Replication: tests rpl_ndb_xxx2ndb fails
rpl_ndb_log : result not deterministic, TBD if should remove
rpl_ndb_relay_space : Bug#16993
......
......@@ -591,14 +591,14 @@ DELETE FROM t1 WHERE pk1 = 2 OR pk1 = 4 OR pk1 = 6;
INSERT INTO t1 VALUES(1,1,1),(2,2,17),(3,4,5) ON DUPLICATE KEY UPDATE pk1=b;
select * from t1 where pk1 = b and b != c order by pk1;
# The following test case currently does not work
#DELETE FROM t1;
#CREATE UNIQUE INDEX bi ON t1(b);
#INSERT INTO t1 VALUES
#(1,1,1),(2,2,2),(3,3,3),(4,4,4),(5,5,5),
#(6,6,6),(7,7,7),(8,8,8),(9,9,9),(10,10,10);
#INSERT INTO t1 VALUES(0,1,0),(21,21,21) ON DUPLICATE KEY UPDATE pk1=b+10,c=b+10;
#select * from t1 order by pk1;
# Test handling of duplicate unique
DELETE FROM t1;
CREATE UNIQUE INDEX bi ON t1(b);
INSERT INTO t1 VALUES
(1,1,1),(2,2,2),(3,3,3),(4,4,4),(5,5,5),
(6,6,6),(7,7,7),(8,8,8),(9,9,9),(10,10,10);
INSERT INTO t1 VALUES(0,1,0),(21,21,21) ON DUPLICATE KEY UPDATE pk1=b+10,b=b+10;
select * from t1 order by pk1;
DROP TABLE t1;
......@@ -614,7 +614,12 @@ INSERT IGNORE INTO t1 SELECT a FROM t1;
INSERT IGNORE INTO t1 SELECT a FROM t1;
INSERT IGNORE INTO t1 VALUES (1);
INSERT IGNORE INTO t1 VALUES (1);
SELECT * FROM t1;
SELECT * FROM t1 ORDER BY a;
DELETE FROM t1;
CREATE UNIQUE INDEX ai ON t1(a);
INSERT IGNORE INTO t1 VALUES (1);
INSERT IGNORE INTO t1 VALUES (1);
SELECT * FROM t1 ORDER BY a;
DROP TABLE t1;
# End of 4.1 tests
......@@ -27,4 +27,15 @@ replace into t1 (gesuchnr,benutzer_id) values (1,1);
select * from t1 order by gesuchnr;
drop table t1;
# bug#17431
CREATE TABLE t1(i INT PRIMARY KEY AUTO_INCREMENT,
j INT,
k INT,
UNIQUE INDEX(j)
) ENGINE = ndb;
INSERT INTO t1 VALUES (1,1,23),(2,2,24);
REPLACE INTO t1 (j,k) VALUES (1,42);
REPLACE INTO t1 (i,j) VALUES (17,2);
SELECT * from t1 ORDER BY i;
# End of 4.1 tests
......@@ -1240,6 +1240,7 @@ int ha_ndbcluster::add_index_handle(THD *thd, NDBDICT *dict, KEY *key_info,
{
char unique_index_name[FN_LEN];
static const char* unique_suffix= "$unique";
m_has_unique_index= TRUE;
strxnmov(unique_index_name, FN_LEN, index_name, unique_suffix, NullS);
DBUG_PRINT("info", ("Get handle to unique_index %s", unique_index_name));
const NDBINDEX *index= dict->getIndex(unique_index_name, m_tabname);
......@@ -1266,7 +1267,7 @@ int ha_ndbcluster::open_indexes(Ndb *ndb, TABLE *tab, bool ignore_error)
KEY* key_info= tab->key_info;
const char **key_name= tab->s->keynames.type_names;
DBUG_ENTER("ha_ndbcluster::open_indexes");
m_has_unique_index= FALSE;
for (i= 0; i < tab->s->keys; i++, key_info++, key_name++)
{
if ((error= add_index_handle(thd, dict, key_info, *key_name, i)))
......@@ -1568,6 +1569,25 @@ int ha_ndbcluster::set_primary_key_from_record(NdbOperation *op, const byte *rec
DBUG_RETURN(0);
}
int ha_ndbcluster::set_index_key_from_record(NdbOperation *op,
const byte *record, uint keyno)
{
KEY* key_info= table->key_info + keyno;
KEY_PART_INFO* key_part= key_info->key_part;
KEY_PART_INFO* end= key_part+key_info->key_parts;
uint i;
DBUG_ENTER("set_index_key_from_record");
for (i= 0; key_part != end; key_part++, i++)
{
Field* field= key_part->field;
if (set_ndb_key(op, field, m_index[keyno].unique_index_attrid_map[i],
record+key_part->offset))
ERR_RETURN(m_active_trans->getNdbError());
}
DBUG_RETURN(0);
}
int
ha_ndbcluster::set_index_key(NdbOperation *op,
const KEY *key_info,
......@@ -1776,46 +1796,154 @@ int ha_ndbcluster::complemented_read(const byte *old_data, byte *new_data,
}
/*
Peek to check if a particular row already exists
* Check that all operations between first and last all
* have gotten the errcode
* If checking for HA_ERR_KEY_NOT_FOUND then update m_dupkey
* for all succeeding operations
*/
bool ha_ndbcluster::check_all_operations_for_error(NdbTransaction *trans,
const NdbOperation *first,
const NdbOperation *last,
uint errcode)
{
const NdbOperation *op= first;
DBUG_ENTER("ha_ndbcluster::check_all_operations_for_error");
while(op)
{
NdbError err= op->getNdbError();
if (err.status != NdbError::Success)
{
if (ndb_to_mysql_error(&err) != (int) errcode)
DBUG_RETURN(false);
if (op == last) break;
op= trans->getNextCompletedOperation(op);
}
else
{
// We found a duplicate
if (op->getType() == NdbOperation::UniqueIndexAccess)
{
if (errcode == HA_ERR_KEY_NOT_FOUND)
{
NdbIndexOperation *iop= (NdbIndexOperation *) op;
const NDBINDEX *index= iop->getIndex();
// Find the key_no of the index
for(uint i= 0; i<table->s->keys; i++)
{
if (m_index[i].unique_index == index)
{
m_dupkey= i;
break;
}
}
}
}
else
{
// Must have been primary key access
DBUG_ASSERT(op->getType() == NdbOperation::PrimaryKeyAccess);
if (errcode == HA_ERR_KEY_NOT_FOUND)
m_dupkey= table->s->primary_key;
}
DBUG_RETURN(false);
}
}
DBUG_RETURN(true);
}
/*
* Peek to check if any rows already exist with conflicting
* primary key or unique index values
*/
int ha_ndbcluster::peek_row(const byte *record)
int ha_ndbcluster::peek_indexed_rows(const byte *record)
{
NdbTransaction *trans= m_active_trans;
NdbOperation *op;
DBUG_ENTER("peek_row");
NdbOperation::LockMode lm=
(NdbOperation::LockMode)get_ndb_lock_type(m_lock.type);
if (!(op= trans->getNdbOperation((const NDBTAB *) m_table)) ||
op->readTuple(lm) != 0)
ERR_RETURN(trans->getNdbError());
const NdbOperation *first, *last;
uint i;
int res;
if ((res= set_primary_key_from_record(op, record)))
ERR_RETURN(trans->getNdbError());
DBUG_ENTER("peek_indexed_rows");
if (m_use_partition_function)
NdbOperation::LockMode lm= NdbOperation::LM_Read;
first= NULL;
if (table->s->primary_key != MAX_KEY)
{
uint32 part_id;
int error;
longlong func_value;
if ((error= m_part_info->get_partition_id(m_part_info, &part_id,
&func_value)))
/*
* Fetch any row with colliding primary key
*/
if (!(op= trans->getNdbOperation((const NDBTAB *) m_table)) ||
op->readTuple(lm) != 0)
ERR_RETURN(trans->getNdbError());
first= op;
if ((res= set_primary_key_from_record(op, record)))
ERR_RETURN(trans->getNdbError());
if (m_use_partition_function)
{
DBUG_RETURN(error);
uint32 part_id;
int error;
longlong func_value;
if ((error= m_part_info->get_partition_id(m_part_info, &part_id,
&func_value)))
{
DBUG_RETURN(error);
}
op->setPartitionId(part_id);
}
op->setPartitionId(part_id);
}
/*
* Fetch any rows with colliding unique indexes
*/
KEY* key_info;
KEY_PART_INFO *key_part, *end;
for (i= 0, key_info= table->key_info; i < table->s->keys; i++, key_info++)
{
if (i != table->s->primary_key &&
key_info->flags & HA_NOSAME)
{
// A unique index is defined on table
NdbIndexOperation *iop;
NDBINDEX *unique_index = (NDBINDEX *) m_index[i].unique_index;
key_part= key_info->key_part;
end= key_part + key_info->key_parts;
if (!(iop= trans->getNdbIndexOperation(unique_index,
(const NDBTAB *) m_table)) ||
iop->readTuple(lm) != 0)
ERR_RETURN(trans->getNdbError());
if (execute_no_commit_ie(this,trans) != 0)
if (!first)
first= iop;
if ((res= set_index_key_from_record(iop, record, i)))
ERR_RETURN(trans->getNdbError());
}
}
last= trans->getLastDefinedOperation();
if (first)
res= execute_no_commit_ie(this,trans);
else
{
// Table has no keys
table->status= STATUS_NOT_FOUND;
DBUG_RETURN(HA_ERR_KEY_NOT_FOUND);
}
if (check_all_operations_for_error(trans, first, last,
HA_ERR_KEY_NOT_FOUND))
{
table->status= STATUS_NOT_FOUND;
DBUG_RETURN(ndb_err(trans));
}
else
{
DBUG_PRINT("info", ("m_dupkey %d", m_dupkey));
}
DBUG_RETURN(0);
}
/*
Read one record from NDB using unique secondary index
*/
......@@ -2310,13 +2438,33 @@ int ha_ndbcluster::write_row(byte *record)
DBUG_ENTER("ha_ndbcluster::write_row");
m_write_op= TRUE;
if (!m_use_write && m_ignore_dup_key && table_share->primary_key != MAX_KEY)
has_auto_increment= (table->next_number_field && record == table->record[0]);
if (table_share->primary_key != MAX_KEY)
{
/*
* Increase any auto_incremented primary key
*/
if (has_auto_increment)
{
THD *thd= table->in_use;
m_skip_auto_increment= FALSE;
update_auto_increment();
/* Ensure that handler is always called for auto_increment values */
thd->next_insert_id= 0;
m_skip_auto_increment= !auto_increment_column_changed;
}
}
/*
* If IGNORE the ignore constraint violations on primary and unique keys
*/
if (!m_use_write && m_ignore_dup_key)
{
int peek_res= peek_row(record);
int peek_res= peek_indexed_rows(record);
if (!peek_res)
{
m_dupkey= table_share->primary_key;
DBUG_RETURN(HA_ERR_FOUND_DUPP_KEY);
}
if (peek_res != HA_ERR_KEY_NOT_FOUND)
......@@ -2326,7 +2474,6 @@ int ha_ndbcluster::write_row(byte *record)
statistic_increment(thd->status_var.ha_write_count, &LOCK_status);
if (table->timestamp_field_type & TIMESTAMP_AUTO_SET_ON_INSERT)
table->timestamp_field->set_time();
has_auto_increment= (table->next_number_field && record == table->record[0]);
if (!(op= trans->getNdbOperation((const NDBTAB *) m_table)))
ERR_RETURN(trans->getNdbError());
......@@ -2367,17 +2514,6 @@ int ha_ndbcluster::write_row(byte *record)
{
int res;
if (has_auto_increment)
{
THD *thd= table->in_use;
m_skip_auto_increment= FALSE;
update_auto_increment();
/* Ensure that handler is always called for auto_increment values */
thd->next_insert_id= 0;
m_skip_auto_increment= !auto_increment_column_changed;
}
if ((res= set_primary_key_from_record(op, record)))
return res;
}
......@@ -3463,7 +3599,7 @@ int ha_ndbcluster::extra(enum ha_extra_function operation)
break;
case HA_EXTRA_IGNORE_DUP_KEY: /* Dup keys don't rollback everything*/
DBUG_PRINT("info", ("HA_EXTRA_IGNORE_DUP_KEY"));
if (current_thd->lex->sql_command == SQLCOM_REPLACE)
if (current_thd->lex->sql_command == SQLCOM_REPLACE && !m_has_unique_index)
{
DBUG_PRINT("info", ("Turning ON use of write instead of insert"));
m_use_write= TRUE;
......@@ -5137,6 +5273,7 @@ ha_ndbcluster::ha_ndbcluster(TABLE_SHARE *table_arg):
m_sorted(FALSE),
m_use_write(FALSE),
m_ignore_dup_key(FALSE),
m_has_unique_index(FALSE),
m_primary_key_update(FALSE),
m_ignore_no_key(FALSE),
m_rows_to_insert((ha_rows) 1),
......
......@@ -738,7 +738,11 @@ static void set_tabname(const char *pathname, char *tabname);
part_id_range *part_spec);
int full_table_scan(byte * buf);
int peek_row(const byte *record);
bool check_all_operations_for_error(NdbTransaction *trans,
const NdbOperation *first,
const NdbOperation *last,
uint errcode);
int peek_indexed_rows(const byte *record);
int unique_index_read(const byte *key, uint key_len,
byte *buf);
int fetch_next(NdbScanOperation* op);
......@@ -766,6 +770,8 @@ static void set_tabname(const char *pathname, char *tabname);
int get_ndb_blobs_value(NdbBlob *last_ndb_blob);
int set_primary_key(NdbOperation *op, const byte *key);
int set_primary_key_from_record(NdbOperation *op, const byte *record);
int set_index_key_from_record(NdbOperation *op, const byte *record,
uint keyno);
int set_bounds(NdbIndexScanOperation*, uint inx, bool rir,
const key_range *keys[2], uint= 0);
int key_cmp(uint keynr, const byte * old_row, const byte * new_row);
......@@ -832,6 +838,7 @@ static void set_tabname(const char *pathname, char *tabname);
bool m_sorted;
bool m_use_write;
bool m_ignore_dup_key;
bool m_has_unique_index;
bool m_primary_key_update;
bool m_write_op;
bool m_ignore_no_key;
......
......@@ -129,6 +129,11 @@ public:
*/
int deleteTuple();
/**
* Get index object for this operation
*/
const NdbDictionary::Index * getIndex() const;
#ifndef DOXYGEN_SHOULD_SKIP_DEPRECATED
/**
* Define the NdbIndexOperation to be a standard operation of type
......
......@@ -56,9 +56,32 @@ public:
*/
/**
* Lock when performing read
* Different access types (supported by sub-classes of NdbOperation)
*/
enum Type {
PrimaryKeyAccess ///< Read, insert, update, or delete using pk
#ifndef DOXYGEN_SHOULD_SKIP_INTERNAL
= 0 // NdbOperation
#endif
,UniqueIndexAccess ///< Read, update, or delete using unique index
#ifndef DOXYGEN_SHOULD_SKIP_INTERNAL
= 1 // NdbIndexOperation
#endif
,TableScan ///< Full table scan
#ifndef DOXYGEN_SHOULD_SKIP_INTERNAL
= 2 // NdbScanOperation
#endif
,OrderedIndexScan ///< Ordered index scan
#ifndef DOXYGEN_SHOULD_SKIP_INTERNAL
= 3 // NdbIndexScanOperation
#endif
};
/**
* Lock when performing read
*/
enum LockMode {
LM_Read ///< Read with shared lock
#ifndef DOXYGEN_SHOULD_SKIP_INTERNAL
......@@ -720,6 +743,11 @@ public:
*/
const NdbDictionary::Table * getTable() const;
/**
* Get the type of access for this operation
*/
const Type getType() const;
/** @} *********************************************************************/
#ifndef DOXYGEN_SHOULD_SKIP_INTERNAL
......@@ -773,7 +801,7 @@ protected:
int init(const class NdbTableImpl*, NdbTransaction* aCon);
void initInterpreter();
NdbOperation(Ndb* aNdb);
NdbOperation(Ndb* aNdb, Type aType = PrimaryKeyAccess);
virtual ~NdbOperation();
void next(NdbOperation*); // Set next pointer
NdbOperation* next(); // Get next pointer
......@@ -887,6 +915,8 @@ protected:
* These are the private variables that are defined in the operation objects.
*****************************************************************************/
Type m_type;
NdbReceiver theReceiver;
NdbError theError; // Errorcode
......@@ -1050,6 +1080,19 @@ NdbOperation::getFirstRecAttr() const
return theReceiver.theFirstRecAttr;
}
/******************************************************************************
Type getType()
Return Value Return the Type.
Remark: Gets type of access.
******************************************************************************/
inline
const NdbOperation::Type
NdbOperation::getType() const
{
return m_type;
}
/******************************************************************************
OperationStatus Status();
......
......@@ -178,7 +178,8 @@ public:
int restart(bool forceSend = false);
protected:
NdbScanOperation(Ndb* aNdb);
NdbScanOperation(Ndb* aNdb,
NdbOperation::Type aType = NdbOperation::TableScan);
virtual ~NdbScanOperation();
int nextResultImpl(bool fetchAllowed = true, bool forceSend = false);
......
......@@ -26,7 +26,7 @@
#include <signaldata/IndxAttrInfo.hpp>
NdbIndexOperation::NdbIndexOperation(Ndb* aNdb) :
NdbOperation(aNdb),
NdbOperation(aNdb, NdbOperation::UniqueIndexAccess),
m_theIndex(NULL)
{
m_tcReqGSN = GSN_TCINDXREQ;
......@@ -164,6 +164,12 @@ int NdbIndexOperation::interpretedDeleteTuple()
return NdbOperation::interpretedDeleteTuple();
}
const NdbDictionary::Index*
NdbIndexOperation::getIndex() const
{
return m_theIndex;
}
int
NdbIndexOperation::prepareSend(Uint32 aTC_ConnectPtr, Uint64 aTransactionId)
{
......
......@@ -37,7 +37,8 @@
* aTable: Pointers to the Table object
* Remark: Creat an object of NdbOperation.
****************************************************************************/
NdbOperation::NdbOperation(Ndb* aNdb) :
NdbOperation::NdbOperation(Ndb* aNdb, NdbOperation::Type aType) :
m_type(aType),
theReceiver(aNdb),
theErrorLine(0),
theNdb(aNdb),
......
......@@ -37,8 +37,8 @@
#define DEBUG_NEXT_RESULT 0
NdbScanOperation::NdbScanOperation(Ndb* aNdb) :
NdbOperation(aNdb),
NdbScanOperation::NdbScanOperation(Ndb* aNdb, NdbOperation::Type aType) :
NdbOperation(aNdb, aType),
m_transConnection(NULL)
{
theParallelism = 0;
......@@ -1032,7 +1032,7 @@ NdbScanOperation::getBlobHandle(Uint32 anAttrId)
}
NdbIndexScanOperation::NdbIndexScanOperation(Ndb* aNdb)
: NdbScanOperation(aNdb)
: NdbScanOperation(aNdb, NdbOperation::OrderedIndexScan)
{
}
......
......@@ -1193,6 +1193,8 @@ NdbTransaction::getNdbIndexScanOperation(const NdbIndexImpl* index,
{
tOp->m_currentTable = table;
}
// Mark that this really an NdbIndexScanOperation
tOp->m_type = NdbOperation::OrderedIndexScan;
return tOp;
} else {
setOperationErrorCodeAbort(4271);
......@@ -1254,6 +1256,8 @@ NdbTransaction::getNdbScanOperation(const NdbTableImpl * tab)
if (tOp->init(tab, this) != -1) {
define_scan_op(tOp);
// Mark that this NdbIndexScanOperation is used as NdbScanOperation
tOp->m_type = NdbOperation::TableScan;
return tOp;
} else {
theNdb->releaseScanOperation(tOp);
......
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