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|
/* Copyright (c) 2007, 2013, Oracle and/or its affiliates.
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 02110-1301 USA */
#include <my_global.h>
#include "sql_priv.h"
#ifndef MYSQL_CLIENT
#include "unireg.h"
#endif
#include "log_event.h"
#ifndef MYSQL_CLIENT
#include "sql_cache.h" // QUERY_CACHE_FLAGS_SIZE
#include "sql_base.h" // close_tables_for_reopen
#include "key.h" // key_copy
#include "lock.h" // mysql_unlock_tables
#include "sql_parse.h" // mysql_reset_thd_for_next_command
#include "rpl_rli.h"
#include "rpl_utility.h"
#endif
#include "log_event_old.h"
#include "rpl_record_old.h"
#include "transaction.h"
#if !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION)
// Old implementation of do_apply_event()
int
Old_rows_log_event::do_apply_event(Old_rows_log_event *ev, rpl_group_info *rgi)
{
DBUG_ENTER("Old_rows_log_event::do_apply_event(st_relay_log_info*)");
int error= 0;
THD *ev_thd= ev->thd;
uchar const *row_start= ev->m_rows_buf;
const Relay_log_info *rli= rgi->rli;
/*
If m_table_id == ~0UL, then we have a dummy event that does not
contain any data. In that case, we just remove all tables in the
tables_to_lock list, close the thread tables, and return with
success.
*/
if (ev->m_table_id == ~0UL)
{
/*
This one is supposed to be set: just an extra check so that
nothing strange has happened.
*/
DBUG_ASSERT(ev->get_flags(Old_rows_log_event::STMT_END_F));
rgi->slave_close_thread_tables(ev_thd);
ev_thd->clear_error();
DBUG_RETURN(0);
}
/*
'ev_thd' has been set by exec_relay_log_event(), just before calling
do_apply_event(). We still check here to prevent future coding
errors.
*/
DBUG_ASSERT(rgi->thd == ev_thd);
/*
If there is no locks taken, this is the first binrow event seen
after the table map events. We should then lock all the tables
used in the transaction and proceed with execution of the actual
event.
*/
if (!ev_thd->lock)
{
/*
Lock_tables() reads the contents of ev_thd->lex, so they must be
initialized.
We also call the mysql_reset_thd_for_next_command(), since this
is the logical start of the next "statement". Note that this
call might reset the value of current_stmt_binlog_format, so
we need to do any changes to that value after this function.
*/
delete_explain_query(thd->lex);
lex_start(ev_thd);
mysql_reset_thd_for_next_command(ev_thd);
/*
This is a row injection, so we flag the "statement" as
such. Note that this code is called both when the slave does row
injections and when the BINLOG statement is used to do row
injections.
*/
ev_thd->lex->set_stmt_row_injection();
if (open_and_lock_tables(ev_thd, rgi->tables_to_lock, FALSE, 0))
{
uint actual_error= ev_thd->get_stmt_da()->sql_errno();
if (ev_thd->is_slave_error || ev_thd->is_fatal_error)
{
/*
Error reporting borrowed from Query_log_event with many excessive
simplifications (we don't honour --slave-skip-errors)
*/
rli->report(ERROR_LEVEL, actual_error, NULL,
"Error '%s' on opening tables",
(actual_error ? ev_thd->get_stmt_da()->message() :
"unexpected success or fatal error"));
ev_thd->is_slave_error= 1;
}
rgi->slave_close_thread_tables(thd);
DBUG_RETURN(actual_error);
}
/*
When the open and locking succeeded, we check all tables to
ensure that they still have the correct type.
We can use a down cast here since we know that every table added
to the tables_to_lock is a RPL_TABLE_LIST.
*/
{
RPL_TABLE_LIST *ptr= rgi->tables_to_lock;
for (uint i= 0 ; ptr&& (i< rgi->tables_to_lock_count);
ptr= static_cast<RPL_TABLE_LIST*>(ptr->next_global), i++)
{
DBUG_ASSERT(ptr->m_tabledef_valid);
TABLE *conv_table;
if (!ptr->m_tabledef.compatible_with(thd, rgi, ptr->table, &conv_table))
{
ev_thd->is_slave_error= 1;
rgi->slave_close_thread_tables(ev_thd);
DBUG_RETURN(Old_rows_log_event::ERR_BAD_TABLE_DEF);
}
DBUG_PRINT("debug", ("Table: %s.%s is compatible with master"
" - conv_table: %p",
ptr->table->s->db.str,
ptr->table->s->table_name.str, conv_table));
ptr->m_conv_table= conv_table;
}
}
/*
... and then we add all the tables to the table map and remove
them from tables to lock.
We also invalidate the query cache for all the tables, since
they will now be changed.
TODO [/Matz]: Maybe the query cache should not be invalidated
here? It might be that a table is not changed, even though it
was locked for the statement. We do know that each
Old_rows_log_event contain at least one row, so after processing one
Old_rows_log_event, we can invalidate the query cache for the
associated table.
*/
TABLE_LIST *ptr= rgi->tables_to_lock;
for (uint i=0; ptr && (i < rgi->tables_to_lock_count); ptr= ptr->next_global, i++)
rgi->m_table_map.set_table(ptr->table_id, ptr->table);
#ifdef HAVE_QUERY_CACHE
query_cache.invalidate_locked_for_write(thd, rgi->tables_to_lock);
#endif
}
TABLE* table= rgi->m_table_map.get_table(ev->m_table_id);
if (table)
{
/*
table == NULL means that this table should not be replicated
(this was set up by Table_map_log_event::do_apply_event()
which tested replicate-* rules).
*/
/*
It's not needed to set_time() but
1) it continues the property that "Time" in SHOW PROCESSLIST shows how
much slave is behind
2) it will be needed when we allow replication from a table with no
TIMESTAMP column to a table with one.
So we call set_time(), like in SBR. Presently it changes nothing.
*/
ev_thd->set_time(ev->when, ev->when_sec_part);
/*
There are a few flags that are replicated with each row event.
Make sure to set/clear them before executing the main body of
the event.
*/
if (ev->get_flags(Old_rows_log_event::NO_FOREIGN_KEY_CHECKS_F))
ev_thd->variables.option_bits|= OPTION_NO_FOREIGN_KEY_CHECKS;
else
ev_thd->variables.option_bits&= ~OPTION_NO_FOREIGN_KEY_CHECKS;
if (ev->get_flags(Old_rows_log_event::RELAXED_UNIQUE_CHECKS_F))
ev_thd->variables.option_bits|= OPTION_RELAXED_UNIQUE_CHECKS;
else
ev_thd->variables.option_bits&= ~OPTION_RELAXED_UNIQUE_CHECKS;
/* A small test to verify that objects have consistent types */
DBUG_ASSERT(sizeof(ev_thd->variables.option_bits) == sizeof(OPTION_RELAXED_UNIQUE_CHECKS));
error= do_before_row_operations(table);
while (error == 0 && row_start < ev->m_rows_end)
{
uchar const *row_end= NULL;
if ((error= do_prepare_row(ev_thd, rgi, table, row_start, &row_end)))
break; // We should perform the after-row operation even in
// the case of error
DBUG_ASSERT(row_end != NULL); // cannot happen
DBUG_ASSERT(row_end <= ev->m_rows_end);
/* in_use can have been set to NULL in close_tables_for_reopen */
THD* old_thd= table->in_use;
if (!table->in_use)
table->in_use= ev_thd;
error= do_exec_row(table);
table->in_use = old_thd;
switch (error)
{
/* Some recoverable errors */
case HA_ERR_RECORD_CHANGED:
case HA_ERR_KEY_NOT_FOUND: /* Idempotency support: OK if
tuple does not exist */
error= 0;
case 0:
break;
default:
rli->report(ERROR_LEVEL, ev_thd->get_stmt_da()->sql_errno(), NULL,
"Error in %s event: row application failed. %s",
ev->get_type_str(),
ev_thd->is_error() ? ev_thd->get_stmt_da()->message() : "");
thd->is_slave_error= 1;
break;
}
row_start= row_end;
}
DBUG_EXECUTE_IF("stop_slave_middle_group",
const_cast<Relay_log_info*>(rli)->abort_slave= 1;);
error= do_after_row_operations(table, error);
}
if (error)
{ /* error has occurred during the transaction */
rli->report(ERROR_LEVEL, ev_thd->get_stmt_da()->sql_errno(), NULL,
"Error in %s event: error during transaction execution "
"on table %s.%s. %s",
ev->get_type_str(), table->s->db.str,
table->s->table_name.str,
ev_thd->is_error() ? ev_thd->get_stmt_da()->message() : "");
/*
If one day we honour --skip-slave-errors in row-based replication, and
the error should be skipped, then we would clear mappings, rollback,
close tables, but the slave SQL thread would not stop and then may
assume the mapping is still available, the tables are still open...
So then we should clear mappings/rollback/close here only if this is a
STMT_END_F.
For now we code, knowing that error is not skippable and so slave SQL
thread is certainly going to stop.
rollback at the caller along with sbr.
*/
ev_thd->reset_current_stmt_binlog_format_row();
rgi->cleanup_context(ev_thd, error);
ev_thd->is_slave_error= 1;
DBUG_RETURN(error);
}
DBUG_RETURN(0);
}
#endif
#if !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION)
/*
Check if there are more UNIQUE keys after the given key.
*/
static int
last_uniq_key(TABLE *table, uint keyno)
{
while (++keyno < table->s->keys)
if (table->key_info[keyno].flags & HA_NOSAME)
return 0;
return 1;
}
/*
Compares table->record[0] and table->record[1]
Returns TRUE if different.
*/
static bool record_compare(TABLE *table)
{
/*
Need to set the X bit and the filler bits in both records since
there are engines that do not set it correctly.
In addition, since MyISAM checks that one hasn't tampered with the
record, it is necessary to restore the old bytes into the record
after doing the comparison.
TODO[record format ndb]: Remove it once NDB returns correct
records. Check that the other engines also return correct records.
*/
bool result= FALSE;
uchar saved_x[2]= {0, 0}, saved_filler[2]= {0, 0};
if (table->s->null_bytes > 0)
{
for (int i = 0 ; i < 2 ; ++i)
{
/*
If we have an X bit then we need to take care of it.
*/
if (!(table->s->db_options_in_use & HA_OPTION_PACK_RECORD))
{
saved_x[i]= table->record[i][0];
table->record[i][0]|= 1U;
}
/*
If (last_null_bit_pos == 0 && null_bytes > 1), then:
X bit (if any) + N nullable fields + M Field_bit fields = 8 bits
Ie, the entire byte is used.
*/
if (table->s->last_null_bit_pos > 0)
{
saved_filler[i]= table->record[i][table->s->null_bytes - 1];
table->record[i][table->s->null_bytes - 1]|=
256U - (1U << table->s->last_null_bit_pos);
}
}
}
if (table->s->blob_fields + table->s->varchar_fields == 0)
{
result= cmp_record(table,record[1]);
goto record_compare_exit;
}
/* Compare null bits */
if (memcmp(table->null_flags,
table->null_flags+table->s->rec_buff_length,
table->s->null_bytes))
{
result= TRUE; // Diff in NULL value
goto record_compare_exit;
}
/* Compare updated fields */
for (Field **ptr=table->field ; *ptr ; ptr++)
{
if ((*ptr)->cmp_binary_offset(table->s->rec_buff_length))
{
result= TRUE;
goto record_compare_exit;
}
}
record_compare_exit:
/*
Restore the saved bytes.
TODO[record format ndb]: Remove this code once NDB returns the
correct record format.
*/
if (table->s->null_bytes > 0)
{
for (int i = 0 ; i < 2 ; ++i)
{
if (!(table->s->db_options_in_use & HA_OPTION_PACK_RECORD))
table->record[i][0]= saved_x[i];
if (table->s->last_null_bit_pos > 0)
table->record[i][table->s->null_bytes - 1]= saved_filler[i];
}
}
return result;
}
/*
Copy "extra" columns from record[1] to record[0].
Copy the extra fields that are not present on the master but are
present on the slave from record[1] to record[0]. This is used
after fetching a record that are to be updated, either inside
replace_record() or as part of executing an update_row().
*/
static int
copy_extra_record_fields(TABLE *table,
size_t master_reclength,
my_ptrdiff_t master_fields)
{
DBUG_ENTER("copy_extra_record_fields(table, master_reclen, master_fields)");
DBUG_PRINT("info", ("Copying to 0x%lx "
"from field %lu at offset %lu "
"to field %d at offset %lu",
(long) table->record[0],
(ulong) master_fields, (ulong) master_reclength,
table->s->fields, table->s->reclength));
/*
Copying the extra fields of the slave that does not exist on
master into record[0] (which are basically the default values).
*/
if (table->s->fields < (uint) master_fields)
DBUG_RETURN(0);
DBUG_ASSERT(master_reclength <= table->s->reclength);
if (master_reclength < table->s->reclength)
memcpy(table->record[0] + master_reclength,
table->record[1] + master_reclength,
table->s->reclength - master_reclength);
/*
Bit columns are special. We iterate over all the remaining
columns and copy the "extra" bits to the new record. This is
not a very good solution: it should be refactored on
opportunity.
REFACTORING SUGGESTION (Matz). Introduce a member function
similar to move_field_offset() called copy_field_offset() to
copy field values and implement it for all Field subclasses. Use
this function to copy data from the found record to the record
that are going to be inserted.
The copy_field_offset() function need to be a virtual function,
which in this case will prevent copying an entire range of
fields efficiently.
*/
{
Field **field_ptr= table->field + master_fields;
for ( ; *field_ptr ; ++field_ptr)
{
/*
Set the null bit according to the values in record[1]
*/
if ((*field_ptr)->maybe_null() &&
(*field_ptr)->is_null_in_record(reinterpret_cast<uchar*>(table->record[1])))
(*field_ptr)->set_null();
else
(*field_ptr)->set_notnull();
/*
Do the extra work for special columns.
*/
switch ((*field_ptr)->real_type())
{
default:
/* Nothing to do */
break;
case MYSQL_TYPE_BIT:
Field_bit *f= static_cast<Field_bit*>(*field_ptr);
if (f->bit_len > 0)
{
my_ptrdiff_t const offset= table->record[1] - table->record[0];
uchar const bits=
get_rec_bits(f->bit_ptr + offset, f->bit_ofs, f->bit_len);
set_rec_bits(bits, f->bit_ptr, f->bit_ofs, f->bit_len);
}
break;
}
}
}
DBUG_RETURN(0); // All OK
}
/*
Replace the provided record in the database.
SYNOPSIS
replace_record()
thd Thread context for writing the record.
table Table to which record should be written.
master_reclength
Offset to first column that is not present on the master,
alternatively the length of the record on the master
side.
RETURN VALUE
Error code on failure, 0 on success.
DESCRIPTION
Similar to how it is done in mysql_insert(), we first try to do
a ha_write_row() and of that fails due to duplicated keys (or
indices), we do an ha_update_row() or a ha_delete_row() instead.
*/
static int
replace_record(THD *thd, TABLE *table,
ulong const master_reclength,
uint const master_fields)
{
DBUG_ENTER("replace_record");
DBUG_ASSERT(table != NULL && thd != NULL);
int error;
int keynum;
auto_afree_ptr<char> key(NULL);
#ifndef DBUG_OFF
DBUG_DUMP("record[0]", table->record[0], table->s->reclength);
DBUG_PRINT_BITSET("debug", "write_set = %s", table->write_set);
DBUG_PRINT_BITSET("debug", "read_set = %s", table->read_set);
#endif
while ((error= table->file->ha_write_row(table->record[0])))
{
if (error == HA_ERR_LOCK_DEADLOCK || error == HA_ERR_LOCK_WAIT_TIMEOUT)
{
table->file->print_error(error, MYF(0)); /* to check at exec_relay_log_event */
DBUG_RETURN(error);
}
if ((keynum= table->file->get_dup_key(error)) < 0)
{
table->file->print_error(error, MYF(0));
/*
We failed to retrieve the duplicate key
- either because the error was not "duplicate key" error
- or because the information which key is not available
*/
DBUG_RETURN(error);
}
/*
We need to retrieve the old row into record[1] to be able to
either update or delete the offending record. We either:
- use rnd_pos() with a row-id (available as dupp_row) to the
offending row, if that is possible (MyISAM and Blackhole), or else
- use index_read_idx() with the key that is duplicated, to
retrieve the offending row.
*/
if (table->file->ha_table_flags() & HA_DUPLICATE_POS)
{
error= table->file->ha_rnd_pos(table->record[1], table->file->dup_ref);
if (error)
{
DBUG_PRINT("info",("rnd_pos() returns error %d",error));
if (error == HA_ERR_RECORD_DELETED)
error= HA_ERR_KEY_NOT_FOUND;
table->file->print_error(error, MYF(0));
DBUG_RETURN(error);
}
}
else
{
if (table->file->extra(HA_EXTRA_FLUSH_CACHE))
{
DBUG_RETURN(my_errno);
}
if (key.get() == NULL)
{
key.assign(static_cast<char*>(my_alloca(table->s->max_unique_length)));
if (key.get() == NULL)
DBUG_RETURN(ENOMEM);
}
key_copy((uchar*)key.get(), table->record[0], table->key_info + keynum,
0);
error= table->file->ha_index_read_idx_map(table->record[1], keynum,
(const uchar*)key.get(),
HA_WHOLE_KEY,
HA_READ_KEY_EXACT);
if (error)
{
DBUG_PRINT("info", ("index_read_idx() returns error %d", error));
if (error == HA_ERR_RECORD_DELETED)
error= HA_ERR_KEY_NOT_FOUND;
table->file->print_error(error, MYF(0));
DBUG_RETURN(error);
}
}
/*
Now, table->record[1] should contain the offending row. That
will enable us to update it or, alternatively, delete it (so
that we can insert the new row afterwards).
First we copy the columns into table->record[0] that are not
present on the master from table->record[1], if there are any.
*/
copy_extra_record_fields(table, master_reclength, master_fields);
/*
REPLACE is defined as either INSERT or DELETE + INSERT. If
possible, we can replace it with an UPDATE, but that will not
work on InnoDB if FOREIGN KEY checks are necessary.
I (Matz) am not sure of the reason for the last_uniq_key()
check as, but I'm guessing that it's something along the
following lines.
Suppose that we got the duplicate key to be a key that is not
the last unique key for the table and we perform an update:
then there might be another key for which the unique check will
fail, so we're better off just deleting the row and inserting
the correct row.
*/
if (last_uniq_key(table, keynum) &&
!table->file->referenced_by_foreign_key())
{
error=table->file->ha_update_row(table->record[1],
table->record[0]);
if (error && error != HA_ERR_RECORD_IS_THE_SAME)
table->file->print_error(error, MYF(0));
else
error= 0;
DBUG_RETURN(error);
}
else
{
if ((error= table->file->ha_delete_row(table->record[1])))
{
table->file->print_error(error, MYF(0));
DBUG_RETURN(error);
}
/* Will retry ha_write_row() with the offending row removed. */
}
}
DBUG_RETURN(error);
}
/**
Find the row given by 'key', if the table has keys, or else use a table scan
to find (and fetch) the row.
If the engine allows random access of the records, a combination of
position() and rnd_pos() will be used.
@param table Pointer to table to search
@param key Pointer to key to use for search, if table has key
@pre <code>table->record[0]</code> shall contain the row to locate
and <code>key</code> shall contain a key to use for searching, if
the engine has a key.
@post If the return value is zero, <code>table->record[1]</code>
will contain the fetched row and the internal "cursor" will refer to
the row. If the return value is non-zero,
<code>table->record[1]</code> is undefined. In either case,
<code>table->record[0]</code> is undefined.
@return Zero if the row was successfully fetched into
<code>table->record[1]</code>, error code otherwise.
*/
static int find_and_fetch_row(TABLE *table, uchar *key)
{
DBUG_ENTER("find_and_fetch_row(TABLE *table, uchar *key, uchar *record)");
DBUG_PRINT("enter", ("table: 0x%lx, key: 0x%lx record: 0x%lx",
(long) table, (long) key, (long) table->record[1]));
DBUG_ASSERT(table->in_use != NULL);
DBUG_DUMP("record[0]", table->record[0], table->s->reclength);
if ((table->file->ha_table_flags() & HA_PRIMARY_KEY_REQUIRED_FOR_POSITION) &&
table->s->primary_key < MAX_KEY)
{
/*
Use a more efficient method to fetch the record given by
table->record[0] if the engine allows it. We first compute a
row reference using the position() member function (it will be
stored in table->file->ref) and the use rnd_pos() to position
the "cursor" (i.e., record[0] in this case) at the correct row.
TODO: Add a check that the correct record has been fetched by
comparing with the original record. Take into account that the
record on the master and slave can be of different
length. Something along these lines should work:
ADD>>> store_record(table,record[1]);
int error= table->file->ha_rnd_pos(table->record[0], table->file->ref);
ADD>>> DBUG_ASSERT(memcmp(table->record[1], table->record[0],
table->s->reclength) == 0);
*/
table->file->position(table->record[0]);
int error= table->file->ha_rnd_pos(table->record[0], table->file->ref);
/*
rnd_pos() returns the record in table->record[0], so we have to
move it to table->record[1].
*/
memcpy(table->record[1], table->record[0], table->s->reclength);
DBUG_RETURN(error);
}
/* We need to retrieve all fields */
/* TODO: Move this out from this function to main loop */
table->use_all_columns();
if (table->s->keys > 0)
{
int error;
/* We have a key: search the table using the index */
if (!table->file->inited && (error= table->file->ha_index_init(0, FALSE)))
{
table->file->print_error(error, MYF(0));
DBUG_RETURN(error);
}
/*
Don't print debug messages when running valgrind since they can
trigger false warnings.
*/
#ifndef HAVE_valgrind
DBUG_DUMP("table->record[0]", table->record[0], table->s->reclength);
DBUG_DUMP("table->record[1]", table->record[1], table->s->reclength);
#endif
/*
We need to set the null bytes to ensure that the filler bit are
all set when returning. There are storage engines that just set
the necessary bits on the bytes and don't set the filler bits
correctly.
*/
my_ptrdiff_t const pos=
table->s->null_bytes > 0 ? table->s->null_bytes - 1 : 0;
table->record[1][pos]= 0xFF;
if ((error= table->file->ha_index_read_map(table->record[1], key,
HA_WHOLE_KEY,
HA_READ_KEY_EXACT)))
{
table->file->print_error(error, MYF(0));
table->file->ha_index_end();
DBUG_RETURN(error);
}
/*
Don't print debug messages when running valgrind since they can
trigger false warnings.
*/
#ifndef HAVE_valgrind
DBUG_DUMP("table->record[0]", table->record[0], table->s->reclength);
DBUG_DUMP("table->record[1]", table->record[1], table->s->reclength);
#endif
/*
Below is a minor "optimization". If the key (i.e., key number
0) has the HA_NOSAME flag set, we know that we have found the
correct record (since there can be no duplicates); otherwise, we
have to compare the record with the one found to see if it is
the correct one.
CAVEAT! This behaviour is essential for the replication of,
e.g., the mysql.proc table since the correct record *shall* be
found using the primary key *only*. There shall be no
comparison of non-PK columns to decide if the correct record is
found. I can see no scenario where it would be incorrect to
chose the row to change only using a PK or an UNNI.
*/
if (table->key_info->flags & HA_NOSAME)
{
table->file->ha_index_end();
DBUG_RETURN(0);
}
while (record_compare(table))
{
int error;
/*
We need to set the null bytes to ensure that the filler bit
are all set when returning. There are storage engines that
just set the necessary bits on the bytes and don't set the
filler bits correctly.
TODO[record format ndb]: Remove this code once NDB returns the
correct record format.
*/
if (table->s->null_bytes > 0)
{
table->record[1][table->s->null_bytes - 1]|=
256U - (1U << table->s->last_null_bit_pos);
}
while ((error= table->file->ha_index_next(table->record[1])))
{
/* We just skip records that has already been deleted */
if (error == HA_ERR_RECORD_DELETED)
continue;
table->file->print_error(error, MYF(0));
table->file->ha_index_end();
DBUG_RETURN(error);
}
}
/*
Have to restart the scan to be able to fetch the next row.
*/
table->file->ha_index_end();
}
else
{
int restart_count= 0; // Number of times scanning has restarted from top
int error;
/* We don't have a key: search the table using rnd_next() */
if ((error= table->file->ha_rnd_init_with_error(1)))
return error;
/* Continue until we find the right record or have made a full loop */
do
{
restart_rnd_next:
error= table->file->ha_rnd_next(table->record[1]);
DBUG_DUMP("record[0]", table->record[0], table->s->reclength);
DBUG_DUMP("record[1]", table->record[1], table->s->reclength);
switch (error) {
case 0:
break;
/*
If the record was deleted, we pick the next one without doing
any comparisons.
*/
case HA_ERR_RECORD_DELETED:
goto restart_rnd_next;
case HA_ERR_END_OF_FILE:
if (++restart_count < 2)
{
int error2;
if ((error2= table->file->ha_rnd_init_with_error(1)))
DBUG_RETURN(error2);
}
break;
default:
table->file->print_error(error, MYF(0));
DBUG_PRINT("info", ("Record not found"));
(void) table->file->ha_rnd_end();
DBUG_RETURN(error);
}
}
while (restart_count < 2 && record_compare(table));
/*
Have to restart the scan to be able to fetch the next row.
*/
DBUG_PRINT("info", ("Record %sfound", restart_count == 2 ? "not " : ""));
table->file->ha_rnd_end();
DBUG_ASSERT(error == HA_ERR_END_OF_FILE || error == 0);
DBUG_RETURN(error);
}
DBUG_RETURN(0);
}
/**********************************************************
Row handling primitives for Write_rows_log_event_old
**********************************************************/
int Write_rows_log_event_old::do_before_row_operations(TABLE *table)
{
int error= 0;
/*
We are using REPLACE semantics and not INSERT IGNORE semantics
when writing rows, that is: new rows replace old rows. We need to
inform the storage engine that it should use this behaviour.
*/
/* Tell the storage engine that we are using REPLACE semantics. */
thd->lex->duplicates= DUP_REPLACE;
/*
Pretend we're executing a REPLACE command: this is needed for
InnoDB and NDB Cluster since they are not (properly) checking the
lex->duplicates flag.
*/
thd->lex->sql_command= SQLCOM_REPLACE;
/*
Do not raise the error flag in case of hitting to an unique attribute
*/
table->file->extra(HA_EXTRA_IGNORE_DUP_KEY);
/*
NDB specific: update from ndb master wrapped as Write_rows
*/
/*
so that the event should be applied to replace slave's row
*/
table->file->extra(HA_EXTRA_WRITE_CAN_REPLACE);
/*
NDB specific: if update from ndb master wrapped as Write_rows
does not find the row it's assumed idempotent binlog applying
is taking place; don't raise the error.
*/
table->file->extra(HA_EXTRA_IGNORE_NO_KEY);
/*
TODO: the cluster team (Tomas?) says that it's better if the engine knows
how many rows are going to be inserted, then it can allocate needed memory
from the start.
*/
table->file->ha_start_bulk_insert(0);
return error;
}
int Write_rows_log_event_old::do_after_row_operations(TABLE *table, int error)
{
int local_error= 0;
table->file->extra(HA_EXTRA_NO_IGNORE_DUP_KEY);
table->file->extra(HA_EXTRA_WRITE_CANNOT_REPLACE);
/*
reseting the extra with
table->file->extra(HA_EXTRA_NO_IGNORE_NO_KEY);
fires bug#27077
todo: explain or fix
*/
if ((local_error= table->file->ha_end_bulk_insert()))
{
table->file->print_error(local_error, MYF(0));
}
return error? error : local_error;
}
int
Write_rows_log_event_old::do_prepare_row(THD *thd_arg,
rpl_group_info *rgi,
TABLE *table,
uchar const *row_start,
uchar const **row_end)
{
DBUG_ASSERT(table != NULL);
DBUG_ASSERT(row_start && row_end);
int error;
error= unpack_row_old(rgi,
table, m_width, table->record[0],
row_start, m_rows_end,
&m_cols, row_end, &m_master_reclength,
table->write_set, PRE_GA_WRITE_ROWS_EVENT);
bitmap_copy(table->read_set, table->write_set);
return error;
}
int Write_rows_log_event_old::do_exec_row(TABLE *table)
{
DBUG_ASSERT(table != NULL);
int error= replace_record(thd, table, m_master_reclength, m_width);
return error;
}
/**********************************************************
Row handling primitives for Delete_rows_log_event_old
**********************************************************/
int Delete_rows_log_event_old::do_before_row_operations(TABLE *table)
{
DBUG_ASSERT(m_memory == NULL);
if ((table->file->ha_table_flags() & HA_PRIMARY_KEY_REQUIRED_FOR_POSITION) &&
table->s->primary_key < MAX_KEY)
{
/*
We don't need to allocate any memory for m_after_image and
m_key since they are not used.
*/
return 0;
}
int error= 0;
if (table->s->keys > 0)
{
m_memory= (uchar*) my_multi_malloc(MYF(MY_WME),
&m_after_image,
(uint) table->s->reclength,
&m_key,
(uint) table->key_info->key_length,
NullS);
}
else
{
m_after_image= (uchar*) my_malloc(table->s->reclength, MYF(MY_WME));
m_memory= (uchar*)m_after_image;
m_key= NULL;
}
if (!m_memory)
return HA_ERR_OUT_OF_MEM;
return error;
}
int Delete_rows_log_event_old::do_after_row_operations(TABLE *table, int error)
{
/*error= ToDo:find out what this should really be, this triggers close_scan in nbd, returning error?*/
table->file->ha_index_or_rnd_end();
my_free(m_memory); // Free for multi_malloc
m_memory= NULL;
m_after_image= NULL;
m_key= NULL;
return error;
}
int
Delete_rows_log_event_old::do_prepare_row(THD *thd_arg,
rpl_group_info *rgi,
TABLE *table,
uchar const *row_start,
uchar const **row_end)
{
int error;
DBUG_ASSERT(row_start && row_end);
/*
This assertion actually checks that there is at least as many
columns on the slave as on the master.
*/
DBUG_ASSERT(table->s->fields >= m_width);
error= unpack_row_old(rgi,
table, m_width, table->record[0],
row_start, m_rows_end,
&m_cols, row_end, &m_master_reclength,
table->read_set, PRE_GA_DELETE_ROWS_EVENT);
/*
If we will access rows using the random access method, m_key will
be set to NULL, so we do not need to make a key copy in that case.
*/
if (m_key)
{
KEY *const key_info= table->key_info;
key_copy(m_key, table->record[0], key_info, 0);
}
return error;
}
int Delete_rows_log_event_old::do_exec_row(TABLE *table)
{
int error;
DBUG_ASSERT(table != NULL);
if (!(error= ::find_and_fetch_row(table, m_key)))
{
/*
Now we should have the right row to delete. We are using
record[0] since it is guaranteed to point to a record with the
correct value.
*/
error= table->file->ha_delete_row(table->record[0]);
}
return error;
}
/**********************************************************
Row handling primitives for Update_rows_log_event_old
**********************************************************/
int Update_rows_log_event_old::do_before_row_operations(TABLE *table)
{
DBUG_ASSERT(m_memory == NULL);
int error= 0;
if (table->s->keys > 0)
{
m_memory= (uchar*) my_multi_malloc(MYF(MY_WME),
&m_after_image,
(uint) table->s->reclength,
&m_key,
(uint) table->key_info->key_length,
NullS);
}
else
{
m_after_image= (uchar*) my_malloc(table->s->reclength, MYF(MY_WME));
m_memory= m_after_image;
m_key= NULL;
}
if (!m_memory)
return HA_ERR_OUT_OF_MEM;
return error;
}
int Update_rows_log_event_old::do_after_row_operations(TABLE *table, int error)
{
/*error= ToDo:find out what this should really be, this triggers close_scan in nbd, returning error?*/
table->file->ha_index_or_rnd_end();
my_free(m_memory);
m_memory= NULL;
m_after_image= NULL;
m_key= NULL;
return error;
}
int Update_rows_log_event_old::do_prepare_row(THD *thd_arg,
rpl_group_info *rgi,
TABLE *table,
uchar const *row_start,
uchar const **row_end)
{
int error;
DBUG_ASSERT(row_start && row_end);
/*
This assertion actually checks that there is at least as many
columns on the slave as on the master.
*/
DBUG_ASSERT(table->s->fields >= m_width);
/* record[0] is the before image for the update */
error= unpack_row_old(rgi,
table, m_width, table->record[0],
row_start, m_rows_end,
&m_cols, row_end, &m_master_reclength,
table->read_set, PRE_GA_UPDATE_ROWS_EVENT);
row_start = *row_end;
/* m_after_image is the after image for the update */
error= unpack_row_old(rgi,
table, m_width, m_after_image,
row_start, m_rows_end,
&m_cols, row_end, &m_master_reclength,
table->write_set, PRE_GA_UPDATE_ROWS_EVENT);
DBUG_DUMP("record[0]", table->record[0], table->s->reclength);
DBUG_DUMP("m_after_image", m_after_image, table->s->reclength);
/*
If we will access rows using the random access method, m_key will
be set to NULL, so we do not need to make a key copy in that case.
*/
if (m_key)
{
KEY *const key_info= table->key_info;
key_copy(m_key, table->record[0], key_info, 0);
}
return error;
}
int Update_rows_log_event_old::do_exec_row(TABLE *table)
{
DBUG_ASSERT(table != NULL);
int error= ::find_and_fetch_row(table, m_key);
if (error)
return error;
/*
We have to ensure that the new record (i.e., the after image) is
in record[0] and the old record (i.e., the before image) is in
record[1]. This since some storage engines require this (for
example, the partition engine).
Since find_and_fetch_row() puts the fetched record (i.e., the old
record) in record[1], we can keep it there. We put the new record
(i.e., the after image) into record[0], and copy the fields that
are on the slave (i.e., in record[1]) into record[0], effectively
overwriting the default values that where put there by the
unpack_row() function.
*/
memcpy(table->record[0], m_after_image, table->s->reclength);
copy_extra_record_fields(table, m_master_reclength, m_width);
/*
Now we have the right row to update. The old row (the one we're
looking for) is in record[1] and the new row has is in record[0].
We also have copied the original values already in the slave's
database into the after image delivered from the master.
*/
error= table->file->ha_update_row(table->record[1], table->record[0]);
if (error == HA_ERR_RECORD_IS_THE_SAME)
error= 0;
return error;
}
#endif
/**************************************************************************
Rows_log_event member functions
**************************************************************************/
#ifndef MYSQL_CLIENT
Old_rows_log_event::Old_rows_log_event(THD *thd_arg, TABLE *tbl_arg, ulong tid,
MY_BITMAP const *cols,
bool is_transactional)
: Log_event(thd_arg, 0, is_transactional),
m_row_count(0),
m_table(tbl_arg),
m_table_id(tid),
m_width(tbl_arg ? tbl_arg->s->fields : 1),
m_rows_buf(0), m_rows_cur(0), m_rows_end(0), m_flags(0)
#ifdef HAVE_REPLICATION
, m_curr_row(NULL), m_curr_row_end(NULL), m_key(NULL)
#endif
{
// This constructor should not be reached.
assert(0);
/*
We allow a special form of dummy event when the table, and cols
are null and the table id is ~0UL. This is a temporary
solution, to be able to terminate a started statement in the
binary log: the extraneous events will be removed in the future.
*/
DBUG_ASSERT((tbl_arg && tbl_arg->s && tid != ~0UL) ||
(!tbl_arg && !cols && tid == ~0UL));
if (thd_arg->variables.option_bits & OPTION_NO_FOREIGN_KEY_CHECKS)
set_flags(NO_FOREIGN_KEY_CHECKS_F);
if (thd_arg->variables.option_bits & OPTION_RELAXED_UNIQUE_CHECKS)
set_flags(RELAXED_UNIQUE_CHECKS_F);
/* if my_bitmap_init fails, caught in is_valid() */
if (likely(!my_bitmap_init(&m_cols,
m_width <= sizeof(m_bitbuf)*8 ? m_bitbuf : NULL,
m_width,
false)))
{
/* Cols can be zero if this is a dummy binrows event */
if (likely(cols != NULL))
{
memcpy(m_cols.bitmap, cols->bitmap, no_bytes_in_map(cols));
create_last_word_mask(&m_cols);
}
}
else
{
// Needed because my_bitmap_init() does not set it to null on failure
m_cols.bitmap= 0;
}
}
#endif
Old_rows_log_event::Old_rows_log_event(const char *buf, uint event_len,
Log_event_type event_type,
const Format_description_log_event
*description_event)
: Log_event(buf, description_event),
m_row_count(0),
#ifndef MYSQL_CLIENT
m_table(NULL),
#endif
m_table_id(0), m_rows_buf(0), m_rows_cur(0), m_rows_end(0)
#if !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION)
, m_curr_row(NULL), m_curr_row_end(NULL), m_key(NULL)
#endif
{
DBUG_ENTER("Old_rows_log_event::Old_Rows_log_event(const char*,...)");
uint8 const common_header_len= description_event->common_header_len;
uint8 const post_header_len= description_event->post_header_len[event_type-1];
DBUG_PRINT("enter",("event_len: %u common_header_len: %d "
"post_header_len: %d",
event_len, common_header_len,
post_header_len));
const char *post_start= buf + common_header_len;
DBUG_DUMP("post_header", (uchar*) post_start, post_header_len);
post_start+= RW_MAPID_OFFSET;
if (post_header_len == 6)
{
/* Master is of an intermediate source tree before 5.1.4. Id is 4 bytes */
m_table_id= uint4korr(post_start);
post_start+= 4;
}
else
{
m_table_id= (ulong) uint6korr(post_start);
post_start+= RW_FLAGS_OFFSET;
}
m_flags= uint2korr(post_start);
uchar const *const var_start=
(const uchar *)buf + common_header_len + post_header_len;
uchar const *const ptr_width= var_start;
uchar *ptr_after_width= (uchar*) ptr_width;
DBUG_PRINT("debug", ("Reading from %p", ptr_after_width));
m_width = net_field_length(&ptr_after_width);
DBUG_PRINT("debug", ("m_width=%lu", m_width));
/* if my_bitmap_init fails, catched in is_valid() */
if (likely(!my_bitmap_init(&m_cols,
m_width <= sizeof(m_bitbuf)*8 ? m_bitbuf : NULL,
m_width,
false)))
{
DBUG_PRINT("debug", ("Reading from %p", ptr_after_width));
memcpy(m_cols.bitmap, ptr_after_width, (m_width + 7) / 8);
create_last_word_mask(&m_cols);
ptr_after_width+= (m_width + 7) / 8;
DBUG_DUMP("m_cols", (uchar*) m_cols.bitmap, no_bytes_in_map(&m_cols));
}
else
{
// Needed because my_bitmap_init() does not set it to null on failure
m_cols.bitmap= NULL;
DBUG_VOID_RETURN;
}
const uchar* const ptr_rows_data= (const uchar*) ptr_after_width;
size_t const data_size= event_len - (ptr_rows_data - (const uchar *) buf);
DBUG_PRINT("info",("m_table_id: %lu m_flags: %d m_width: %lu data_size: %lu",
m_table_id, m_flags, m_width, (ulong) data_size));
DBUG_DUMP("rows_data", (uchar*) ptr_rows_data, data_size);
m_rows_buf= (uchar*) my_malloc(data_size, MYF(MY_WME));
if (likely((bool)m_rows_buf))
{
#if !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION)
m_curr_row= m_rows_buf;
#endif
m_rows_end= m_rows_buf + data_size;
m_rows_cur= m_rows_end;
memcpy(m_rows_buf, ptr_rows_data, data_size);
}
else
m_cols.bitmap= 0; // to not free it
DBUG_VOID_RETURN;
}
Old_rows_log_event::~Old_rows_log_event()
{
if (m_cols.bitmap == m_bitbuf) // no my_malloc happened
m_cols.bitmap= 0; // so no my_free in my_bitmap_free
my_bitmap_free(&m_cols); // To pair with my_bitmap_init().
my_free(m_rows_buf);
}
int Old_rows_log_event::get_data_size()
{
uchar buf[MAX_INT_WIDTH];
uchar *end= net_store_length(buf, (m_width + 7) / 8);
DBUG_EXECUTE_IF("old_row_based_repl_4_byte_map_id_master",
return 6 + no_bytes_in_map(&m_cols) + (end - buf) +
(m_rows_cur - m_rows_buf););
int data_size= ROWS_HEADER_LEN;
data_size+= no_bytes_in_map(&m_cols);
data_size+= (uint) (end - buf);
data_size+= (uint) (m_rows_cur - m_rows_buf);
return data_size;
}
#ifndef MYSQL_CLIENT
int Old_rows_log_event::do_add_row_data(uchar *row_data, size_t length)
{
/*
When the table has a primary key, we would probably want, by default, to
log only the primary key value instead of the entire "before image". This
would save binlog space. TODO
*/
DBUG_ENTER("Old_rows_log_event::do_add_row_data");
DBUG_PRINT("enter", ("row_data: 0x%lx length: %lu", (ulong) row_data,
(ulong) length));
/*
Don't print debug messages when running valgrind since they can
trigger false warnings.
*/
#ifndef HAVE_valgrind
DBUG_DUMP("row_data", row_data, MY_MIN(length, 32));
#endif
DBUG_ASSERT(m_rows_buf <= m_rows_cur);
DBUG_ASSERT(!m_rows_buf || (m_rows_end && m_rows_buf < m_rows_end));
DBUG_ASSERT(m_rows_cur <= m_rows_end);
/* The cast will always work since m_rows_cur <= m_rows_end */
if (static_cast<size_t>(m_rows_end - m_rows_cur) <= length)
{
size_t const block_size= 1024;
my_ptrdiff_t const cur_size= m_rows_cur - m_rows_buf;
my_ptrdiff_t const new_alloc=
block_size * ((cur_size + length + block_size - 1) / block_size);
uchar* const new_buf= (uchar*)my_realloc((uchar*)m_rows_buf, (uint) new_alloc,
MYF(MY_ALLOW_ZERO_PTR|MY_WME));
if (unlikely(!new_buf))
DBUG_RETURN(HA_ERR_OUT_OF_MEM);
/* If the memory moved, we need to move the pointers */
if (new_buf != m_rows_buf)
{
m_rows_buf= new_buf;
m_rows_cur= m_rows_buf + cur_size;
}
/*
The end pointer should always be changed to point to the end of
the allocated memory.
*/
m_rows_end= m_rows_buf + new_alloc;
}
DBUG_ASSERT(m_rows_cur + length <= m_rows_end);
memcpy(m_rows_cur, row_data, length);
m_rows_cur+= length;
m_row_count++;
DBUG_RETURN(0);
}
#endif
#if !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION)
int Old_rows_log_event::do_apply_event(rpl_group_info *rgi)
{
DBUG_ENTER("Old_rows_log_event::do_apply_event(Relay_log_info*)");
int error= 0;
Relay_log_info const *rli= rgi->rli;
/*
If m_table_id == ~0UL, then we have a dummy event that does not
contain any data. In that case, we just remove all tables in the
tables_to_lock list, close the thread tables, and return with
success.
*/
if (m_table_id == ~0UL)
{
/*
This one is supposed to be set: just an extra check so that
nothing strange has happened.
*/
DBUG_ASSERT(get_flags(STMT_END_F));
rgi->slave_close_thread_tables(thd);
thd->clear_error();
DBUG_RETURN(0);
}
/*
'thd' has been set by exec_relay_log_event(), just before calling
do_apply_event(). We still check here to prevent future coding
errors.
*/
DBUG_ASSERT(rgi->thd == thd);
/*
If there is no locks taken, this is the first binrow event seen
after the table map events. We should then lock all the tables
used in the transaction and proceed with execution of the actual
event.
*/
if (!thd->lock)
{
/*
lock_tables() reads the contents of thd->lex, so they must be
initialized. Contrary to in
Table_map_log_event::do_apply_event() we don't call
mysql_init_query() as that may reset the binlog format.
*/
lex_start(thd);
if ((error= lock_tables(thd, rgi->tables_to_lock,
rgi->tables_to_lock_count, 0)))
{
if (thd->is_slave_error || thd->is_fatal_error)
{
/*
Error reporting borrowed from Query_log_event with many excessive
simplifications (we don't honour --slave-skip-errors)
*/
uint actual_error= thd->net.last_errno;
rli->report(ERROR_LEVEL, actual_error, NULL,
"Error '%s' in %s event: when locking tables",
(actual_error ? thd->net.last_error :
"unexpected success or fatal error"),
get_type_str());
thd->is_fatal_error= 1;
}
else
{
rli->report(ERROR_LEVEL, error, NULL,
"Error in %s event: when locking tables",
get_type_str());
}
rgi->slave_close_thread_tables(thd);
DBUG_RETURN(error);
}
/*
When the open and locking succeeded, we check all tables to
ensure that they still have the correct type.
We can use a down cast here since we know that every table added
to the tables_to_lock is a RPL_TABLE_LIST.
*/
{
RPL_TABLE_LIST *ptr= rgi->tables_to_lock;
for (uint i= 0 ; ptr&& (i< rgi->tables_to_lock_count);
ptr= static_cast<RPL_TABLE_LIST*>(ptr->next_global), i++)
{
TABLE *conv_table;
if (ptr->m_tabledef.compatible_with(thd, rgi, ptr->table, &conv_table))
{
thd->is_slave_error= 1;
rgi->slave_close_thread_tables(thd);
DBUG_RETURN(ERR_BAD_TABLE_DEF);
}
ptr->m_conv_table= conv_table;
}
}
/*
... and then we add all the tables to the table map but keep
them in the tables to lock list.
We also invalidate the query cache for all the tables, since
they will now be changed.
TODO [/Matz]: Maybe the query cache should not be invalidated
here? It might be that a table is not changed, even though it
was locked for the statement. We do know that each
Old_rows_log_event contain at least one row, so after processing one
Old_rows_log_event, we can invalidate the query cache for the
associated table.
*/
for (TABLE_LIST *ptr= rgi->tables_to_lock ; ptr ; ptr= ptr->next_global)
{
rgi->m_table_map.set_table(ptr->table_id, ptr->table);
}
#ifdef HAVE_QUERY_CACHE
query_cache.invalidate_locked_for_write(thd, rgi->tables_to_lock);
#endif
}
TABLE*
table=
m_table= rgi->m_table_map.get_table(m_table_id);
if (table)
{
/*
table == NULL means that this table should not be replicated
(this was set up by Table_map_log_event::do_apply_event()
which tested replicate-* rules).
*/
/*
It's not needed to set_time() but
1) it continues the property that "Time" in SHOW PROCESSLIST shows how
much slave is behind
2) it will be needed when we allow replication from a table with no
TIMESTAMP column to a table with one.
So we call set_time(), like in SBR. Presently it changes nothing.
*/
thd->set_time(when, when_sec_part);
/*
There are a few flags that are replicated with each row event.
Make sure to set/clear them before executing the main body of
the event.
*/
if (get_flags(NO_FOREIGN_KEY_CHECKS_F))
thd->variables.option_bits|= OPTION_NO_FOREIGN_KEY_CHECKS;
else
thd->variables.option_bits&= ~OPTION_NO_FOREIGN_KEY_CHECKS;
if (get_flags(RELAXED_UNIQUE_CHECKS_F))
thd->variables.option_bits|= OPTION_RELAXED_UNIQUE_CHECKS;
else
thd->variables.option_bits&= ~OPTION_RELAXED_UNIQUE_CHECKS;
/* A small test to verify that objects have consistent types */
DBUG_ASSERT(sizeof(thd->variables.option_bits) == sizeof(OPTION_RELAXED_UNIQUE_CHECKS));
if ( m_width == table->s->fields && bitmap_is_set_all(&m_cols))
set_flags(COMPLETE_ROWS_F);
/*
Set tables write and read sets.
Read_set contains all slave columns (in case we are going to fetch
a complete record from slave)
Write_set equals the m_cols bitmap sent from master but it can be
longer if slave has extra columns.
*/
DBUG_PRINT_BITSET("debug", "Setting table's write_set from: %s", &m_cols);
bitmap_set_all(table->read_set);
bitmap_set_all(table->write_set);
if (!get_flags(COMPLETE_ROWS_F))
bitmap_intersect(table->write_set,&m_cols);
// Do event specific preparations
error= do_before_row_operations(rli);
// row processing loop
while (error == 0 && m_curr_row < m_rows_end)
{
/* in_use can have been set to NULL in close_tables_for_reopen */
THD* old_thd= table->in_use;
if (!table->in_use)
table->in_use= thd;
error= do_exec_row(rgi);
DBUG_PRINT("info", ("error: %d", error));
DBUG_ASSERT(error != HA_ERR_RECORD_DELETED);
table->in_use = old_thd;
switch (error)
{
case 0:
break;
/* Some recoverable errors */
case HA_ERR_RECORD_CHANGED:
case HA_ERR_KEY_NOT_FOUND: /* Idempotency support: OK if
tuple does not exist */
error= 0;
break;
default:
rli->report(ERROR_LEVEL, thd->net.last_errno, NULL,
"Error in %s event: row application failed. %s",
get_type_str(),
thd->net.last_error ? thd->net.last_error : "");
thd->is_slave_error= 1;
break;
}
/*
If m_curr_row_end was not set during event execution (e.g., because
of errors) we can't proceed to the next row. If the error is transient
(i.e., error==0 at this point) we must call unpack_current_row() to set
m_curr_row_end.
*/
DBUG_PRINT("info", ("error: %d", error));
DBUG_PRINT("info", ("curr_row: 0x%lu; curr_row_end: 0x%lu; rows_end: 0x%lu",
(ulong) m_curr_row, (ulong) m_curr_row_end, (ulong) m_rows_end));
if (!m_curr_row_end && !error)
unpack_current_row(rgi);
// at this moment m_curr_row_end should be set
DBUG_ASSERT(error || m_curr_row_end != NULL);
DBUG_ASSERT(error || m_curr_row < m_curr_row_end);
DBUG_ASSERT(error || m_curr_row_end <= m_rows_end);
m_curr_row= m_curr_row_end;
} // row processing loop
DBUG_EXECUTE_IF("stop_slave_middle_group",
const_cast<Relay_log_info*>(rli)->abort_slave= 1;);
error= do_after_row_operations(rli, error);
} // if (table)
if (error)
{ /* error has occurred during the transaction */
rli->report(ERROR_LEVEL, thd->net.last_errno, NULL,
"Error in %s event: error during transaction execution "
"on table %s.%s. %s",
get_type_str(), table->s->db.str,
table->s->table_name.str,
thd->net.last_error ? thd->net.last_error : "");
/*
If one day we honour --skip-slave-errors in row-based replication, and
the error should be skipped, then we would clear mappings, rollback,
close tables, but the slave SQL thread would not stop and then may
assume the mapping is still available, the tables are still open...
So then we should clear mappings/rollback/close here only if this is a
STMT_END_F.
For now we code, knowing that error is not skippable and so slave SQL
thread is certainly going to stop.
rollback at the caller along with sbr.
*/
thd->reset_current_stmt_binlog_format_row();
rgi->cleanup_context(thd, error);
thd->is_slave_error= 1;
DBUG_RETURN(error);
}
/*
This code would ideally be placed in do_update_pos() instead, but
since we have no access to table there, we do the setting of
last_event_start_time here instead.
*/
if (table && (table->s->primary_key == MAX_KEY) &&
!use_trans_cache() && get_flags(STMT_END_F) == RLE_NO_FLAGS)
{
/*
------------ Temporary fix until WL#2975 is implemented ---------
This event is not the last one (no STMT_END_F). If we stop now
(in case of terminate_slave_thread()), how will we restart? We
have to restart from Table_map_log_event, but as this table is
not transactional, the rows already inserted will still be
present, and idempotency is not guaranteed (no PK) so we risk
that repeating leads to double insert. So we desperately try to
continue, hope we'll eventually leave this buggy situation (by
executing the final Old_rows_log_event). If we are in a hopeless
wait (reached end of last relay log and nothing gets appended
there), we timeout after one minute, and notify DBA about the
problem. When WL#2975 is implemented, just remove the member
Relay_log_info::last_event_start_time and all its occurrences.
*/
rgi->last_event_start_time= my_time(0);
}
if (get_flags(STMT_END_F))
{
/*
This is the end of a statement or transaction, so close (and
unlock) the tables we opened when processing the
Table_map_log_event starting the statement.
OBSERVER. This will clear *all* mappings, not only those that
are open for the table. There is not good handle for on-close
actions for tables.
NOTE. Even if we have no table ('table' == 0) we still need to be
here, so that we increase the group relay log position. If we didn't, we
could have a group relay log position which lags behind "forever"
(assume the last master's transaction is ignored by the slave because of
replicate-ignore rules).
*/
int binlog_error= thd->binlog_flush_pending_rows_event(TRUE);
/*
If this event is not in a transaction, the call below will, if some
transactional storage engines are involved, commit the statement into
them and flush the pending event to binlog.
If this event is in a transaction, the call will do nothing, but a
Xid_log_event will come next which will, if some transactional engines
are involved, commit the transaction and flush the pending event to the
binlog.
If there was a deadlock the transaction should have been rolled back
already. So there should be no need to rollback the transaction.
*/
DBUG_ASSERT(! thd->transaction_rollback_request);
if ((error= (binlog_error ? trans_rollback_stmt(thd) : trans_commit_stmt(thd))))
rli->report(ERROR_LEVEL, error, NULL,
"Error in %s event: commit of row events failed, "
"table `%s`.`%s`",
get_type_str(), m_table->s->db.str,
m_table->s->table_name.str);
error|= binlog_error;
/*
Now what if this is not a transactional engine? we still need to
flush the pending event to the binlog; we did it with
thd->binlog_flush_pending_rows_event(). Note that we imitate
what is done for real queries: a call to
ha_autocommit_or_rollback() (sometimes only if involves a
transactional engine), and a call to be sure to have the pending
event flushed.
*/
thd->reset_current_stmt_binlog_format_row();
rgi->cleanup_context(thd, 0);
}
DBUG_RETURN(error);
}
Log_event::enum_skip_reason
Old_rows_log_event::do_shall_skip(rpl_group_info *rgi)
{
/*
If the slave skip counter is 1 and this event does not end a
statement, then we should not start executing on the next event.
Otherwise, we defer the decision to the normal skipping logic.
*/
if (rgi->rli->slave_skip_counter == 1 && !get_flags(STMT_END_F))
return Log_event::EVENT_SKIP_IGNORE;
else
return Log_event::do_shall_skip(rgi);
}
int
Old_rows_log_event::do_update_pos(rpl_group_info *rgi)
{
Relay_log_info *rli= rgi->rli;
DBUG_ENTER("Old_rows_log_event::do_update_pos");
int error= 0;
DBUG_PRINT("info", ("flags: %s",
get_flags(STMT_END_F) ? "STMT_END_F " : ""));
if (get_flags(STMT_END_F))
{
/*
Indicate that a statement is finished.
Step the group log position if we are not in a transaction,
otherwise increase the event log position.
*/
rli->stmt_done(log_pos, thd, rgi);
/*
Clear any errors in thd->net.last_err*. It is not known if this is
needed or not. It is believed that any errors that may exist in
thd->net.last_err* are allowed. Examples of errors are "key not
found", which is produced in the test case rpl_row_conflicts.test
*/
thd->clear_error();
}
else
{
rgi->inc_event_relay_log_pos();
}
DBUG_RETURN(error);
}
#endif /* !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION) */
#ifndef MYSQL_CLIENT
bool Old_rows_log_event::write_data_header(IO_CACHE *file)
{
uchar buf[ROWS_HEADER_LEN]; // No need to init the buffer
// This method should not be reached.
assert(0);
DBUG_ASSERT(m_table_id != ~0UL);
DBUG_EXECUTE_IF("old_row_based_repl_4_byte_map_id_master",
{
int4store(buf + 0, m_table_id);
int2store(buf + 4, m_flags);
return (my_b_safe_write(file, buf, 6));
});
int6store(buf + RW_MAPID_OFFSET, (ulonglong)m_table_id);
int2store(buf + RW_FLAGS_OFFSET, m_flags);
return (my_b_safe_write(file, buf, ROWS_HEADER_LEN));
}
bool Old_rows_log_event::write_data_body(IO_CACHE*file)
{
/*
Note that this should be the number of *bits*, not the number of
bytes.
*/
uchar sbuf[MAX_INT_WIDTH];
my_ptrdiff_t const data_size= m_rows_cur - m_rows_buf;
// This method should not be reached.
assert(0);
bool res= false;
uchar *const sbuf_end= net_store_length(sbuf, (size_t) m_width);
DBUG_ASSERT(static_cast<size_t>(sbuf_end - sbuf) <= sizeof(sbuf));
DBUG_DUMP("m_width", sbuf, (size_t) (sbuf_end - sbuf));
res= res || my_b_safe_write(file, sbuf, (size_t) (sbuf_end - sbuf));
DBUG_DUMP("m_cols", (uchar*) m_cols.bitmap, no_bytes_in_map(&m_cols));
res= res || my_b_safe_write(file, (uchar*) m_cols.bitmap,
no_bytes_in_map(&m_cols));
DBUG_DUMP("rows", m_rows_buf, data_size);
res= res || my_b_safe_write(file, m_rows_buf, (size_t) data_size);
return res;
}
#endif
#if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT)
void Old_rows_log_event::pack_info(THD *thd, Protocol *protocol)
{
char buf[256];
char const *const flagstr=
get_flags(STMT_END_F) ? " flags: STMT_END_F" : "";
size_t bytes= my_snprintf(buf, sizeof(buf),
"table_id: %lu%s", m_table_id, flagstr);
protocol->store(buf, bytes, &my_charset_bin);
}
#endif
#ifdef MYSQL_CLIENT
void Old_rows_log_event::print_helper(FILE *file,
PRINT_EVENT_INFO *print_event_info,
char const *const name)
{
IO_CACHE *const head= &print_event_info->head_cache;
IO_CACHE *const body= &print_event_info->body_cache;
if (!print_event_info->short_form)
{
bool const last_stmt_event= get_flags(STMT_END_F);
print_header(head, print_event_info, !last_stmt_event);
my_b_printf(head, "\t%s: table id %lu%s\n",
name, m_table_id,
last_stmt_event ? " flags: STMT_END_F" : "");
print_base64(body, print_event_info, !last_stmt_event);
}
if (get_flags(STMT_END_F))
{
copy_event_cache_to_file_and_reinit(head, file);
copy_event_cache_to_file_and_reinit(body, file);
}
}
#endif
#if !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION)
/**
Write the current row into event's table.
The row is located in the row buffer, pointed by @c m_curr_row member.
Number of columns of the row is stored in @c m_width member (it can be
different from the number of columns in the table to which we insert).
Bitmap @c m_cols indicates which columns are present in the row. It is assumed
that event's table is already open and pointed by @c m_table.
If the same record already exists in the table it can be either overwritten
or an error is reported depending on the value of @c overwrite flag
(error reporting not yet implemented). Note that the matching record can be
different from the row we insert if we use primary keys to identify records in
the table.
The row to be inserted can contain values only for selected columns. The
missing columns are filled with default values using @c prepare_record()
function. If a matching record is found in the table and @c overwritte is
true, the missing columns are taken from it.
@param rli Relay log info (needed for row unpacking).
@param overwrite
Shall we overwrite if the row already exists or signal
error (currently ignored).
@returns Error code on failure, 0 on success.
This method, if successful, sets @c m_curr_row_end pointer to point at the
next row in the rows buffer. This is done when unpacking the row to be
inserted.
@note If a matching record is found, it is either updated using
@c ha_update_row() or first deleted and then new record written.
*/
int
Old_rows_log_event::write_row(rpl_group_info *rgi, const bool overwrite)
{
DBUG_ENTER("write_row");
DBUG_ASSERT(m_table != NULL && thd != NULL);
TABLE *table= m_table; // pointer to event's table
int error;
int keynum;
auto_afree_ptr<char> key(NULL);
/* fill table->record[0] with default values */
if ((error= prepare_record(table, m_width,
TRUE /* check if columns have def. values */)))
DBUG_RETURN(error);
/* unpack row into table->record[0] */
error= unpack_current_row(rgi); // TODO: how to handle errors?
#ifndef DBUG_OFF
DBUG_DUMP("record[0]", table->record[0], table->s->reclength);
DBUG_PRINT_BITSET("debug", "write_set = %s", table->write_set);
DBUG_PRINT_BITSET("debug", "read_set = %s", table->read_set);
#endif
/*
Try to write record. If a corresponding record already exists in the table,
we try to change it using ha_update_row() if possible. Otherwise we delete
it and repeat the whole process again.
TODO: Add safety measures against infinite looping.
*/
while ((error= table->file->ha_write_row(table->record[0])))
{
if (error == HA_ERR_LOCK_DEADLOCK || error == HA_ERR_LOCK_WAIT_TIMEOUT)
{
table->file->print_error(error, MYF(0)); /* to check at exec_relay_log_event */
DBUG_RETURN(error);
}
if ((keynum= table->file->get_dup_key(error)) < 0)
{
DBUG_PRINT("info",("Can't locate duplicate key (get_dup_key returns %d)",keynum));
table->file->print_error(error, MYF(0));
/*
We failed to retrieve the duplicate key
- either because the error was not "duplicate key" error
- or because the information which key is not available
*/
DBUG_RETURN(error);
}
/*
We need to retrieve the old row into record[1] to be able to
either update or delete the offending record. We either:
- use rnd_pos() with a row-id (available as dupp_row) to the
offending row, if that is possible (MyISAM and Blackhole), or else
- use index_read_idx() with the key that is duplicated, to
retrieve the offending row.
*/
if (table->file->ha_table_flags() & HA_DUPLICATE_POS)
{
DBUG_PRINT("info",("Locating offending record using rnd_pos()"));
error= table->file->ha_rnd_pos(table->record[1], table->file->dup_ref);
if (error)
{
DBUG_PRINT("info",("rnd_pos() returns error %d",error));
if (error == HA_ERR_RECORD_DELETED)
error= HA_ERR_KEY_NOT_FOUND;
table->file->print_error(error, MYF(0));
DBUG_RETURN(error);
}
}
else
{
DBUG_PRINT("info",("Locating offending record using index_read_idx()"));
if (table->file->extra(HA_EXTRA_FLUSH_CACHE))
{
DBUG_PRINT("info",("Error when setting HA_EXTRA_FLUSH_CACHE"));
DBUG_RETURN(my_errno);
}
if (key.get() == NULL)
{
key.assign(static_cast<char*>(my_alloca(table->s->max_unique_length)));
if (key.get() == NULL)
{
DBUG_PRINT("info",("Can't allocate key buffer"));
DBUG_RETURN(ENOMEM);
}
}
key_copy((uchar*)key.get(), table->record[0], table->key_info + keynum,
0);
error= table->file->ha_index_read_idx_map(table->record[1], keynum,
(const uchar*)key.get(),
HA_WHOLE_KEY,
HA_READ_KEY_EXACT);
if (error)
{
DBUG_PRINT("info",("index_read_idx() returns error %d", error));
if (error == HA_ERR_RECORD_DELETED)
error= HA_ERR_KEY_NOT_FOUND;
table->file->print_error(error, MYF(0));
DBUG_RETURN(error);
}
}
/*
Now, record[1] should contain the offending row. That
will enable us to update it or, alternatively, delete it (so
that we can insert the new row afterwards).
*/
/*
If row is incomplete we will use the record found to fill
missing columns.
*/
if (!get_flags(COMPLETE_ROWS_F))
{
restore_record(table,record[1]);
error= unpack_current_row(rgi);
}
#ifndef DBUG_OFF
DBUG_PRINT("debug",("preparing for update: before and after image"));
DBUG_DUMP("record[1] (before)", table->record[1], table->s->reclength);
DBUG_DUMP("record[0] (after)", table->record[0], table->s->reclength);
#endif
/*
REPLACE is defined as either INSERT or DELETE + INSERT. If
possible, we can replace it with an UPDATE, but that will not
work on InnoDB if FOREIGN KEY checks are necessary.
I (Matz) am not sure of the reason for the last_uniq_key()
check as, but I'm guessing that it's something along the
following lines.
Suppose that we got the duplicate key to be a key that is not
the last unique key for the table and we perform an update:
then there might be another key for which the unique check will
fail, so we're better off just deleting the row and inserting
the correct row.
*/
if (last_uniq_key(table, keynum) &&
!table->file->referenced_by_foreign_key())
{
DBUG_PRINT("info",("Updating row using ha_update_row()"));
error=table->file->ha_update_row(table->record[1],
table->record[0]);
switch (error) {
case HA_ERR_RECORD_IS_THE_SAME:
DBUG_PRINT("info",("ignoring HA_ERR_RECORD_IS_THE_SAME error from"
" ha_update_row()"));
error= 0;
case 0:
break;
default:
DBUG_PRINT("info",("ha_update_row() returns error %d",error));
table->file->print_error(error, MYF(0));
}
DBUG_RETURN(error);
}
else
{
DBUG_PRINT("info",("Deleting offending row and trying to write new one again"));
if ((error= table->file->ha_delete_row(table->record[1])))
{
DBUG_PRINT("info",("ha_delete_row() returns error %d",error));
table->file->print_error(error, MYF(0));
DBUG_RETURN(error);
}
/* Will retry ha_write_row() with the offending row removed. */
}
}
DBUG_RETURN(error);
}
/**
Locate the current row in event's table.
The current row is pointed by @c m_curr_row. Member @c m_width tells how many
columns are there in the row (this can be differnet from the number of columns
in the table). It is assumed that event's table is already open and pointed
by @c m_table.
If a corresponding record is found in the table it is stored in
@c m_table->record[0]. Note that when record is located based on a primary
key, it is possible that the record found differs from the row being located.
If no key is specified or table does not have keys, a table scan is used to
find the row. In that case the row should be complete and contain values for
all columns. However, it can still be shorter than the table, i.e. the table
can contain extra columns not present in the row. It is also possible that
the table has fewer columns than the row being located.
@returns Error code on failure, 0 on success.
@post In case of success @c m_table->record[0] contains the record found.
Also, the internal "cursor" of the table is positioned at the record found.
@note If the engine allows random access of the records, a combination of
@c position() and @c rnd_pos() will be used.
Note that one MUST call ha_index_or_rnd_end() after this function if
it returns 0 as we must leave the row position in the handler intact
for any following update/delete command.
*/
int Old_rows_log_event::find_row(rpl_group_info *rgi)
{
DBUG_ENTER("find_row");
DBUG_ASSERT(m_table && m_table->in_use != NULL);
TABLE *table= m_table;
int error;
/* unpack row - missing fields get default values */
// TODO: shall we check and report errors here?
prepare_record(table, m_width, FALSE /* don't check errors */);
error= unpack_current_row(rgi);
#ifndef DBUG_OFF
DBUG_PRINT("info",("looking for the following record"));
DBUG_DUMP("record[0]", table->record[0], table->s->reclength);
#endif
if ((table->file->ha_table_flags() & HA_PRIMARY_KEY_REQUIRED_FOR_POSITION) &&
table->s->primary_key < MAX_KEY)
{
/*
Use a more efficient method to fetch the record given by
table->record[0] if the engine allows it. We first compute a
row reference using the position() member function (it will be
stored in table->file->ref) and the use rnd_pos() to position
the "cursor" (i.e., record[0] in this case) at the correct row.
TODO: Add a check that the correct record has been fetched by
comparing with the original record. Take into account that the
record on the master and slave can be of different
length. Something along these lines should work:
ADD>>> store_record(table,record[1]);
int error= table->file->ha_rnd_pos(table->record[0], table->file->ref);
ADD>>> DBUG_ASSERT(memcmp(table->record[1], table->record[0],
table->s->reclength) == 0);
*/
DBUG_PRINT("info",("locating record using primary key (position)"));
int error= table->file->ha_rnd_pos_by_record(table->record[0]);
if (error)
{
DBUG_PRINT("info",("rnd_pos returns error %d",error));
if (error == HA_ERR_RECORD_DELETED)
error= HA_ERR_KEY_NOT_FOUND;
table->file->print_error(error, MYF(0));
}
DBUG_RETURN(error);
}
// We can't use position() - try other methods.
/*
We need to retrieve all fields
TODO: Move this out from this function to main loop
*/
table->use_all_columns();
/*
Save copy of the record in table->record[1]. It might be needed
later if linear search is used to find exact match.
*/
store_record(table,record[1]);
if (table->s->keys > 0)
{
DBUG_PRINT("info",("locating record using primary key (index_read)"));
/* We have a key: search the table using the index */
if (!table->file->inited && (error= table->file->ha_index_init(0, FALSE)))
{
DBUG_PRINT("info",("ha_index_init returns error %d",error));
table->file->print_error(error, MYF(0));
DBUG_RETURN(error);
}
/* Fill key data for the row */
DBUG_ASSERT(m_key);
key_copy(m_key, table->record[0], table->key_info, 0);
/*
Don't print debug messages when running valgrind since they can
trigger false warnings.
*/
#ifndef HAVE_valgrind
DBUG_DUMP("key data", m_key, table->key_info->key_length);
#endif
/*
We need to set the null bytes to ensure that the filler bit are
all set when returning. There are storage engines that just set
the necessary bits on the bytes and don't set the filler bits
correctly.
*/
my_ptrdiff_t const pos=
table->s->null_bytes > 0 ? table->s->null_bytes - 1 : 0;
table->record[0][pos]= 0xFF;
if ((error= table->file->ha_index_read_map(table->record[0], m_key,
HA_WHOLE_KEY,
HA_READ_KEY_EXACT)))
{
DBUG_PRINT("info",("no record matching the key found in the table"));
if (error == HA_ERR_RECORD_DELETED)
error= HA_ERR_KEY_NOT_FOUND;
table->file->print_error(error, MYF(0));
table->file->ha_index_end();
DBUG_RETURN(error);
}
/*
Don't print debug messages when running valgrind since they can
trigger false warnings.
*/
#ifndef HAVE_valgrind
DBUG_PRINT("info",("found first matching record"));
DBUG_DUMP("record[0]", table->record[0], table->s->reclength);
#endif
/*
Below is a minor "optimization". If the key (i.e., key number
0) has the HA_NOSAME flag set, we know that we have found the
correct record (since there can be no duplicates); otherwise, we
have to compare the record with the one found to see if it is
the correct one.
CAVEAT! This behaviour is essential for the replication of,
e.g., the mysql.proc table since the correct record *shall* be
found using the primary key *only*. There shall be no
comparison of non-PK columns to decide if the correct record is
found. I can see no scenario where it would be incorrect to
chose the row to change only using a PK or an UNNI.
*/
if (table->key_info->flags & HA_NOSAME)
{
/* Unique does not have non nullable part */
if (!(table->key_info->flags & (HA_NULL_PART_KEY)))
{
DBUG_RETURN(0);
}
else
{
KEY *keyinfo= table->key_info;
/*
Unique has nullable part. We need to check if there is any
field in the BI image that is null and part of UNNI.
*/
bool null_found= FALSE;
for (uint i=0; i < keyinfo->user_defined_key_parts && !null_found; i++)
{
uint fieldnr= keyinfo->key_part[i].fieldnr - 1;
Field **f= table->field+fieldnr;
null_found= (*f)->is_null();
}
if (!null_found)
{
DBUG_RETURN(0);
}
/* else fall through to index scan */
}
}
/*
In case key is not unique, we still have to iterate over records found
and find the one which is identical to the row given. A copy of the
record we are looking for is stored in record[1].
*/
DBUG_PRINT("info",("non-unique index, scanning it to find matching record"));
while (record_compare(table))
{
/*
We need to set the null bytes to ensure that the filler bit
are all set when returning. There are storage engines that
just set the necessary bits on the bytes and don't set the
filler bits correctly.
TODO[record format ndb]: Remove this code once NDB returns the
correct record format.
*/
if (table->s->null_bytes > 0)
{
table->record[0][table->s->null_bytes - 1]|=
256U - (1U << table->s->last_null_bit_pos);
}
while ((error= table->file->ha_index_next(table->record[0])))
{
/* We just skip records that has already been deleted */
if (error == HA_ERR_RECORD_DELETED)
continue;
DBUG_PRINT("info",("no record matching the given row found"));
table->file->print_error(error, MYF(0));
(void) table->file->ha_index_end();
DBUG_RETURN(error);
}
}
}
else
{
DBUG_PRINT("info",("locating record using table scan (rnd_next)"));
int restart_count= 0; // Number of times scanning has restarted from top
/* We don't have a key: search the table using rnd_next() */
if ((error= table->file->ha_rnd_init_with_error(1)))
{
DBUG_PRINT("info",("error initializing table scan"
" (ha_rnd_init returns %d)",error));
DBUG_RETURN(error);
}
/* Continue until we find the right record or have made a full loop */
do
{
restart_rnd_next:
error= table->file->ha_rnd_next(table->record[0]);
switch (error) {
case 0:
break;
case HA_ERR_RECORD_DELETED:
goto restart_rnd_next;
case HA_ERR_END_OF_FILE:
if (++restart_count < 2)
{
int error2;
table->file->ha_rnd_end();
if ((error2= table->file->ha_rnd_init_with_error(1)))
DBUG_RETURN(error2);
goto restart_rnd_next;
}
break;
default:
DBUG_PRINT("info", ("Failed to get next record"
" (rnd_next returns %d)",error));
table->file->print_error(error, MYF(0));
table->file->ha_rnd_end();
DBUG_RETURN(error);
}
}
while (restart_count < 2 && record_compare(table));
/*
Note: above record_compare will take into accout all record fields
which might be incorrect in case a partial row was given in the event
*/
/*
Have to restart the scan to be able to fetch the next row.
*/
if (restart_count == 2)
DBUG_PRINT("info", ("Record not found"));
else
DBUG_DUMP("record found", table->record[0], table->s->reclength);
if (error)
table->file->ha_rnd_end();
DBUG_ASSERT(error == HA_ERR_END_OF_FILE || error == 0);
DBUG_RETURN(error);
}
DBUG_RETURN(0);
}
#endif
/**************************************************************************
Write_rows_log_event member functions
**************************************************************************/
/*
Constructor used to build an event for writing to the binary log.
*/
#if !defined(MYSQL_CLIENT)
Write_rows_log_event_old::Write_rows_log_event_old(THD *thd_arg,
TABLE *tbl_arg,
ulong tid_arg,
MY_BITMAP const *cols,
bool is_transactional)
: Old_rows_log_event(thd_arg, tbl_arg, tid_arg, cols, is_transactional)
{
// This constructor should not be reached.
assert(0);
}
#endif
/*
Constructor used by slave to read the event from the binary log.
*/
#ifdef HAVE_REPLICATION
Write_rows_log_event_old::Write_rows_log_event_old(const char *buf,
uint event_len,
const Format_description_log_event
*description_event)
: Old_rows_log_event(buf, event_len, PRE_GA_WRITE_ROWS_EVENT,
description_event)
{
}
#endif
#if !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION)
int
Write_rows_log_event_old::do_before_row_operations(const Slave_reporting_capability *const)
{
int error= 0;
/*
We are using REPLACE semantics and not INSERT IGNORE semantics
when writing rows, that is: new rows replace old rows. We need to
inform the storage engine that it should use this behaviour.
*/
/* Tell the storage engine that we are using REPLACE semantics. */
thd->lex->duplicates= DUP_REPLACE;
/*
Pretend we're executing a REPLACE command: this is needed for
InnoDB and NDB Cluster since they are not (properly) checking the
lex->duplicates flag.
*/
thd->lex->sql_command= SQLCOM_REPLACE;
/*
Do not raise the error flag in case of hitting to an unique attribute
*/
m_table->file->extra(HA_EXTRA_IGNORE_DUP_KEY);
/*
NDB specific: update from ndb master wrapped as Write_rows
*/
/*
so that the event should be applied to replace slave's row
*/
m_table->file->extra(HA_EXTRA_WRITE_CAN_REPLACE);
/*
NDB specific: if update from ndb master wrapped as Write_rows
does not find the row it's assumed idempotent binlog applying
is taking place; don't raise the error.
*/
m_table->file->extra(HA_EXTRA_IGNORE_NO_KEY);
/*
TODO: the cluster team (Tomas?) says that it's better if the engine knows
how many rows are going to be inserted, then it can allocate needed memory
from the start.
*/
m_table->file->ha_start_bulk_insert(0);
return error;
}
int
Write_rows_log_event_old::do_after_row_operations(const Slave_reporting_capability *const,
int error)
{
int local_error= 0;
m_table->file->extra(HA_EXTRA_NO_IGNORE_DUP_KEY);
m_table->file->extra(HA_EXTRA_WRITE_CANNOT_REPLACE);
/*
reseting the extra with
table->file->extra(HA_EXTRA_NO_IGNORE_NO_KEY);
fires bug#27077
todo: explain or fix
*/
if ((local_error= m_table->file->ha_end_bulk_insert()))
{
m_table->file->print_error(local_error, MYF(0));
}
return error? error : local_error;
}
int
Write_rows_log_event_old::do_exec_row(rpl_group_info *rgi)
{
DBUG_ASSERT(m_table != NULL);
int error= write_row(rgi, TRUE /* overwrite */);
if (error && !thd->net.last_errno)
thd->net.last_errno= error;
return error;
}
#endif /* !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION) */
#ifdef MYSQL_CLIENT
void Write_rows_log_event_old::print(FILE *file,
PRINT_EVENT_INFO* print_event_info)
{
Old_rows_log_event::print_helper(file, print_event_info, "Write_rows_old");
}
#endif
/**************************************************************************
Delete_rows_log_event member functions
**************************************************************************/
/*
Constructor used to build an event for writing to the binary log.
*/
#ifndef MYSQL_CLIENT
Delete_rows_log_event_old::Delete_rows_log_event_old(THD *thd_arg,
TABLE *tbl_arg,
ulong tid,
MY_BITMAP const *cols,
bool is_transactional)
: Old_rows_log_event(thd_arg, tbl_arg, tid, cols, is_transactional),
m_after_image(NULL), m_memory(NULL)
{
// This constructor should not be reached.
assert(0);
}
#endif /* #if !defined(MYSQL_CLIENT) */
/*
Constructor used by slave to read the event from the binary log.
*/
#ifdef HAVE_REPLICATION
Delete_rows_log_event_old::Delete_rows_log_event_old(const char *buf,
uint event_len,
const Format_description_log_event
*description_event)
: Old_rows_log_event(buf, event_len, PRE_GA_DELETE_ROWS_EVENT,
description_event),
m_after_image(NULL), m_memory(NULL)
{
}
#endif
#if !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION)
int
Delete_rows_log_event_old::do_before_row_operations(const Slave_reporting_capability *const)
{
if ((m_table->file->ha_table_flags() & HA_PRIMARY_KEY_REQUIRED_FOR_POSITION) &&
m_table->s->primary_key < MAX_KEY)
{
/*
We don't need to allocate any memory for m_key since it is not used.
*/
return 0;
}
if (m_table->s->keys > 0)
{
// Allocate buffer for key searches
m_key= (uchar*)my_malloc(m_table->key_info->key_length, MYF(MY_WME));
if (!m_key)
return HA_ERR_OUT_OF_MEM;
}
return 0;
}
int
Delete_rows_log_event_old::do_after_row_operations(const Slave_reporting_capability *const,
int error)
{
/*error= ToDo:find out what this should really be, this triggers close_scan in nbd, returning error?*/
m_table->file->ha_index_or_rnd_end();
my_free(m_key);
m_key= NULL;
return error;
}
int Delete_rows_log_event_old::do_exec_row(rpl_group_info *rgi)
{
int error;
DBUG_ASSERT(m_table != NULL);
if (!(error= find_row(rgi)))
{
/*
Delete the record found, located in record[0]
*/
error= m_table->file->ha_delete_row(m_table->record[0]);
m_table->file->ha_index_or_rnd_end();
}
return error;
}
#endif /* !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION) */
#ifdef MYSQL_CLIENT
void Delete_rows_log_event_old::print(FILE *file,
PRINT_EVENT_INFO* print_event_info)
{
Old_rows_log_event::print_helper(file, print_event_info, "Delete_rows_old");
}
#endif
/**************************************************************************
Update_rows_log_event member functions
**************************************************************************/
/*
Constructor used to build an event for writing to the binary log.
*/
#if !defined(MYSQL_CLIENT)
Update_rows_log_event_old::Update_rows_log_event_old(THD *thd_arg,
TABLE *tbl_arg,
ulong tid,
MY_BITMAP const *cols,
bool is_transactional)
: Old_rows_log_event(thd_arg, tbl_arg, tid, cols, is_transactional),
m_after_image(NULL), m_memory(NULL)
{
// This constructor should not be reached.
assert(0);
}
#endif /* !defined(MYSQL_CLIENT) */
/*
Constructor used by slave to read the event from the binary log.
*/
#ifdef HAVE_REPLICATION
Update_rows_log_event_old::Update_rows_log_event_old(const char *buf,
uint event_len,
const
Format_description_log_event
*description_event)
: Old_rows_log_event(buf, event_len, PRE_GA_UPDATE_ROWS_EVENT,
description_event),
m_after_image(NULL), m_memory(NULL)
{
}
#endif
#if !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION)
int
Update_rows_log_event_old::do_before_row_operations(const Slave_reporting_capability *const)
{
if (m_table->s->keys > 0)
{
// Allocate buffer for key searches
m_key= (uchar*)my_malloc(m_table->key_info->key_length, MYF(MY_WME));
if (!m_key)
return HA_ERR_OUT_OF_MEM;
}
return 0;
}
int
Update_rows_log_event_old::do_after_row_operations(const Slave_reporting_capability *const,
int error)
{
/*error= ToDo:find out what this should really be, this triggers close_scan in nbd, returning error?*/
m_table->file->ha_index_or_rnd_end();
my_free(m_key); // Free for multi_malloc
m_key= NULL;
return error;
}
int
Update_rows_log_event_old::do_exec_row(rpl_group_info *rgi)
{
DBUG_ASSERT(m_table != NULL);
int error= find_row(rgi);
if (error)
{
/*
We need to read the second image in the event of error to be
able to skip to the next pair of updates
*/
m_curr_row= m_curr_row_end;
unpack_current_row(rgi);
return error;
}
/*
This is the situation after locating BI:
===|=== before image ====|=== after image ===|===
^ ^
m_curr_row m_curr_row_end
BI found in the table is stored in record[0]. We copy it to record[1]
and unpack AI to record[0].
*/
store_record(m_table,record[1]);
m_curr_row= m_curr_row_end;
error= unpack_current_row(rgi); // this also updates m_curr_row_end
/*
Now we have the right row to update. The old row (the one we're
looking for) is in record[1] and the new row is in record[0].
*/
#ifndef HAVE_valgrind
/*
Don't print debug messages when running valgrind since they can
trigger false warnings.
*/
DBUG_PRINT("info",("Updating row in table"));
DBUG_DUMP("old record", m_table->record[1], m_table->s->reclength);
DBUG_DUMP("new values", m_table->record[0], m_table->s->reclength);
#endif
error= m_table->file->ha_update_row(m_table->record[1], m_table->record[0]);
m_table->file->ha_index_or_rnd_end();
if (error == HA_ERR_RECORD_IS_THE_SAME)
error= 0;
return error;
}
#endif /* !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION) */
#ifdef MYSQL_CLIENT
void Update_rows_log_event_old::print(FILE *file,
PRINT_EVENT_INFO* print_event_info)
{
Old_rows_log_event::print_helper(file, print_event_info, "Update_rows_old");
}
#endif
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