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mariadb/sql/protocol.cc
Alexander Barkov 702166bcde WL#2649 Number-to-string conversions 
added:
  include/ctype_numconv.inc
  mysql-test/include/ctype_numconv.inc
  mysql-test/r/ctype_binary.result
  mysql-test/t/ctype_binary.test
  Adding tests

modified:

  mysql-test/r/bigint.result
  mysql-test/r/case.result
  mysql-test/r/create.result
  mysql-test/r/ctype_cp1251.result
  mysql-test/r/ctype_latin1.result
  mysql-test/r/ctype_ucs.result
  mysql-test/r/func_gconcat.result
  mysql-test/r/func_str.result
  mysql-test/r/metadata.result
  mysql-test/r/ps_1general.result
  mysql-test/r/ps_2myisam.result
  mysql-test/r/ps_3innodb.result
  mysql-test/r/ps_4heap.result
  mysql-test/r/ps_5merge.result
  mysql-test/r/show_check.result
  mysql-test/r/type_datetime.result
  mysql-test/r/type_ranges.result
  mysql-test/r/union.result
  mysql-test/suite/ndb/r/ps_7ndb.result
  mysql-test/t/ctype_cp1251.test
  mysql-test/t/ctype_latin1.test
  mysql-test/t/ctype_ucs.test
  mysql-test/t/func_str.test
    Fixing tests


  @ sql/field.cc
     - Return str result using my_charset_numeric.
     - Using real multi-byte aware str_to_XXX functions
       to handle tricky charset values propely (e.g. UCS2)
  @ sql/field.h
     - Changing derivation of non-string field types to DERIVATION_NUMERIC.
     - Changing binary() for numeric/datetime fields to always
     return TRUE even if charset is not my_charset_bin. We need
     this to keep ha_base_keytype() return HA_KEYTYPE_BINARY.
     - Adding BINARY_FLAG into some fields, because it's not
     being set automatically anymore with
     "my_charset_bin to my_charset_numeric" change.
    - Changing derivation for numeric/datetime datatypes to a weaker
      value, to make "SELECT concat('string', field)" use character
      set of the string literal for the result of the function.
  @ sql/item.cc
     - Implementing generic val_str_ascii().
     - Using max_char_length() instead of direct read of max_length
       to make "tricky" charsets like UCS2 work.
       NOTE: in the future we'll possibly remove all direct reads of max_length
     - Fixing Item_num::safe_charset_converter().
       Previously it alligned binary string to
       character string (for example by adding leading 0x00
       when doing binary->UCS2 conversion). Now it just
       converts from my_charset_numbner to "tocs".
     - Using val_str_ascii() in Item::get_time() to make UCS2 arguments work.
     - Other misc changes
  @ sql/item.h
     - Changing MY_COLL_CMP_CONV and MY_COLL_ALLOW_CONV to
       bit operations instead of hard-coded bit masks.
     - Addding new method DTCollation.set_numeric().
     - Adding new methods to Item.
     - Adding helper functions to make code look nicer:
       agg_item_charsets_for_string_result()
       agg_item_charsets_for_comparison()
     - Changing charset for Item_num-derived items
       from my_charset_bin to my_charset_numeric
       (which is an alias for latin1).
  @ sql/item_cmpfunc.cc
     - Using new helper functions
     - Other misc changes
  @ sql/item_cmpfunc.h
     - Fixing strcmp() to return max_length=2.
       Previously it returned 1, which was wrong,
       because it did not fit '-1'.
  @ sql/item_func.cc
     - Using new helper functions
     - Other minor changes
  @ sql/item_func.h
     - Removing unused functions
     - Adding helper functions
       agg_arg_charsets_for_string_result()
       agg_arg_charsets_for_comparison()
     - Adding set_numeric() into constructors of numeric items.
     - Using fix_length_and_charset() and fix_char_length()
       instead of direct write to max_length.
  @ sql/item_geofunc.cc
     - Changing class for Item_func_geometry_type and
       Item_func_as_wkt from Item_str_func to
       Item_str_ascii_func, to make them return UCS2 result
       properly (when character_set_connection=ucs2).
  @ sql/item_geofunc.h
     - Changing class for Item_func_geometry_type and
       Item_func_as_wkt from Item_str_func to
       Item_str_ascii_func, to make them return UCS2 result
       properly (when @@character_set_connection=ucs2).
  @ sql/item_strfunc.cc
     - Implementing Item_str_func::val_str().
     - Renaming val_str to val_str_ascii for some items,
       to make them work with UCS2 properly.
     - Using new helper functions
     - All single-argument functions that expect string
       result now call this method:
       agg_arg_charsets_for_string_result(collation, args, 1);
       This enables character set conversion to @@character_set_connection
       in case of pure numeric input.
  @ sql/item_strfunc.h
     - Introducing Item_str_ascii_func - for functions
       which return pure ASCII data, for performance purposes,
       as well as for the cases when the old implementation
       of val_str() was heavily 8-bit oriented and implementing
       a UCS2-aware version is tricky.
  @ sql/item_sum.cc
     - Using new helper functions.
  @ sql/item_timefunc.cc
     - Using my_charset_numeric instead of my_charset_bin.
     - Using fix_char_length(), fix_length_and_charset()
       and fix_length_and_charset_datetime()
       instead of direct write to max_length.
     - Using tricky-charset aware function str_to_time_with_warn()
  @ sql/item_timefunc.h
     - Using new helper functions for charset and length initialization.
     - Changing base class for Item_func_get_format() to make
       it return UCS2 properly (when character_set_connection=ucs2).
  @ sql/item_xmlfunc.cc
     - Using new helper function
  @ sql/my_decimal.cc
     - Adding a new DECIMAL to CHAR converter
       with real multibyte support (e.g. UCS2)

  @ sql/mysql_priv.h
     - Introducing a new derivation level for numeric/datetime data types.
     - Adding macros for my_charset_numeric and MY_REPERTOIRE_NUMERIC.
     - Adding prototypes for str_set_decimal()
     - Adding prototypes for character-set aware str_to_xxx() functions.
  @ sql/protocol.cc
     - Changing charsetnr to "binary" client-side metadata for
       numeric/datetime data types.
  @ sql/time.cc
     - Adding to_ascii() helper function, to convert a string
       in any character set to ascii representation. In the
       future can be extended to understand digits written
       in various non-Latin word scripts.
     - Adding real multy-byte character set aware versions for str_to_XXXX,
       to make these these type of queries work correct:
         INSERT INTO t1 SET datetime_column=ucs2_expression;
   @  strings/ctype-ucs2.c
     - endptr was not calculated correctly. INSERTing of UCS2
       values into numeric columns returned warnings about
       truncated wrong data.
2010-02-11 08:17:25 +04:00

1559 lines
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/* Copyright (C) 2000-2003 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
/**
@file
Low level functions for storing data to be send to the MySQL client.
The actual communction is handled by the net_xxx functions in net_serv.cc
*/
#ifdef USE_PRAGMA_IMPLEMENTATION
#pragma implementation // gcc: Class implementation
#endif
#include "mysql_priv.h"
#include <stdarg.h>
static const unsigned int PACKET_BUFFER_EXTRA_ALLOC= 1024;
/* Declared non-static only because of the embedded library. */
bool net_send_error_packet(THD *, uint, const char *, const char *);
/* Declared non-static only because of the embedded library. */
bool net_send_ok(THD *, uint, uint, ulonglong, ulonglong, const char *);
/* Declared non-static only because of the embedded library. */
bool net_send_eof(THD *thd, uint server_status, uint statement_warn_count);
#ifndef EMBEDDED_LIBRARY
static bool write_eof_packet(THD *, NET *, uint, uint);
#endif
#ifndef EMBEDDED_LIBRARY
bool Protocol::net_store_data(const uchar *from, size_t length)
#else
bool Protocol_binary::net_store_data(const uchar *from, size_t length)
#endif
{
ulong packet_length=packet->length();
/*
The +9 comes from that strings of length longer than 16M require
9 bytes to be stored (see net_store_length).
*/
if (packet_length+9+length > packet->alloced_length() &&
packet->realloc(packet_length+9+length))
return 1;
uchar *to= net_store_length((uchar*) packet->ptr()+packet_length, length);
memcpy(to,from,length);
packet->length((uint) (to+length-(uchar*) packet->ptr()));
return 0;
}
/*
net_store_data() - extended version with character set conversion.
It is optimized for short strings whose length after
conversion is garanteed to be less than 251, which accupies
exactly one byte to store length. It allows not to use
the "convert" member as a temporary buffer, conversion
is done directly to the "packet" member.
The limit 251 is good enough to optimize send_result_set_metadata()
because column, table, database names fit into this limit.
*/
#ifndef EMBEDDED_LIBRARY
bool Protocol::net_store_data(const uchar *from, size_t length,
CHARSET_INFO *from_cs, CHARSET_INFO *to_cs)
{
uint dummy_errors;
/* Calculate maxumum possible result length */
uint conv_length= to_cs->mbmaxlen * length / from_cs->mbminlen;
if (conv_length > 250)
{
/*
For strings with conv_length greater than 250 bytes
we don't know how many bytes we will need to store length: one or two,
because we don't know result length until conversion is done.
For example, when converting from utf8 (mbmaxlen=3) to latin1,
conv_length=300 means that the result length can vary between 100 to 300.
length=100 needs one byte, length=300 needs to bytes.
Thus conversion directly to "packet" is not worthy.
Let's use "convert" as a temporary buffer.
*/
return (convert->copy((const char*) from, length, from_cs,
to_cs, &dummy_errors) ||
net_store_data((const uchar*) convert->ptr(), convert->length()));
}
ulong packet_length= packet->length();
ulong new_length= packet_length + conv_length + 1;
if (new_length > packet->alloced_length() && packet->realloc(new_length))
return 1;
char *length_pos= (char*) packet->ptr() + packet_length;
char *to= length_pos + 1;
to+= copy_and_convert(to, conv_length, to_cs,
(const char*) from, length, from_cs, &dummy_errors);
net_store_length((uchar*) length_pos, to - length_pos - 1);
packet->length((uint) (to - packet->ptr()));
return 0;
}
#endif
/**
Send a error string to client.
Design note:
net_printf_error and net_send_error are low-level functions
that shall be used only when a new connection is being
established or at server startup.
For SIGNAL/RESIGNAL and GET DIAGNOSTICS functionality it's
critical that every error that can be intercepted is issued in one
place only, my_message_sql.
@param thd Thread handler
@param sql_errno The error code to send
@param err A pointer to the error message
@return
@retval FALSE The message was sent to the client
@retval TRUE An error occurred and the message wasn't sent properly
*/
bool net_send_error(THD *thd, uint sql_errno, const char *err,
const char* sqlstate)
{
bool error;
DBUG_ENTER("net_send_error");
DBUG_ASSERT(!thd->spcont);
DBUG_ASSERT(sql_errno);
DBUG_ASSERT(err);
DBUG_PRINT("enter",("sql_errno: %d err: %s", sql_errno, err));
if (sqlstate == NULL)
sqlstate= mysql_errno_to_sqlstate(sql_errno);
/*
It's one case when we can push an error even though there
is an OK or EOF already.
*/
thd->stmt_da->can_overwrite_status= TRUE;
/* Abort multi-result sets */
thd->server_status&= ~SERVER_MORE_RESULTS_EXISTS;
error= net_send_error_packet(thd, sql_errno, err, sqlstate);
thd->stmt_da->can_overwrite_status= FALSE;
DBUG_RETURN(error);
}
/**
Return ok to the client.
The ok packet has the following structure:
- 0 : Marker (1 byte)
- affected_rows : Stored in 1-9 bytes
- id : Stored in 1-9 bytes
- server_status : Copy of thd->server_status; Can be used by client
to check if we are inside an transaction.
New in 4.0 protocol
- warning_count : Stored in 2 bytes; New in 4.1 protocol
- message : Stored as packed length (1-9 bytes) + message.
Is not stored if no message.
@param thd Thread handler
@param server_status The server status
@param statement_warn_count Total number of warnings
@param affected_rows Number of rows changed by statement
@param id Auto_increment id for first row (if used)
@param message Message to send to the client (Used by mysql_status)
@return
@retval FALSE The message was successfully sent
@retval TRUE An error occurred and the messages wasn't sent properly
*/
#ifndef EMBEDDED_LIBRARY
bool
net_send_ok(THD *thd,
uint server_status, uint statement_warn_count,
ulonglong affected_rows, ulonglong id, const char *message)
{
NET *net= &thd->net;
uchar buff[MYSQL_ERRMSG_SIZE+10],*pos;
bool error= FALSE;
DBUG_ENTER("my_ok");
if (! net->vio) // hack for re-parsing queries
{
DBUG_PRINT("info", ("vio present: NO"));
DBUG_RETURN(FALSE);
}
buff[0]=0; // No fields
pos=net_store_length(buff+1,affected_rows);
pos=net_store_length(pos, id);
if (thd->client_capabilities & CLIENT_PROTOCOL_41)
{
DBUG_PRINT("info",
("affected_rows: %lu id: %lu status: %u warning_count: %u",
(ulong) affected_rows,
(ulong) id,
(uint) (server_status & 0xffff),
(uint) statement_warn_count));
int2store(pos, server_status);
pos+=2;
/* We can only return up to 65535 warnings in two bytes */
uint tmp= min(statement_warn_count, 65535);
int2store(pos, tmp);
pos+= 2;
}
else if (net->return_status) // For 4.0 protocol
{
int2store(pos, server_status);
pos+=2;
}
thd->stmt_da->can_overwrite_status= TRUE;
if (message && message[0])
pos= net_store_data(pos, (uchar*) message, strlen(message));
error= my_net_write(net, buff, (size_t) (pos-buff));
if (!error)
error= net_flush(net);
thd->stmt_da->can_overwrite_status= FALSE;
DBUG_PRINT("info", ("OK sent, so no more error sending allowed"));
DBUG_RETURN(error);
}
static uchar eof_buff[1]= { (uchar) 254 }; /* Marker for end of fields */
/**
Send eof (= end of result set) to the client.
The eof packet has the following structure:
- 254 : Marker (1 byte)
- warning_count : Stored in 2 bytes; New in 4.1 protocol
- status_flag : Stored in 2 bytes;
For flags like SERVER_MORE_RESULTS_EXISTS.
Note that the warning count will not be sent if 'no_flush' is set as
we don't want to report the warning count until all data is sent to the
client.
@param thd Thread handler
@param server_status The server status
@param statement_warn_count Total number of warnings
@return
@retval FALSE The message was successfully sent
@retval TRUE An error occurred and the message wasn't sent properly
*/
bool
net_send_eof(THD *thd, uint server_status, uint statement_warn_count)
{
NET *net= &thd->net;
bool error= FALSE;
DBUG_ENTER("net_send_eof");
/* Set to TRUE if no active vio, to work well in case of --init-file */
if (net->vio != 0)
{
thd->stmt_da->can_overwrite_status= TRUE;
error= write_eof_packet(thd, net, server_status, statement_warn_count);
if (!error)
error= net_flush(net);
thd->stmt_da->can_overwrite_status= FALSE;
DBUG_PRINT("info", ("EOF sent, so no more error sending allowed"));
}
DBUG_RETURN(error);
}
/**
Format EOF packet according to the current protocol and
write it to the network output buffer.
@param thd The thread handler
@param net The network handler
@param server_status The server status
@param statement_warn_count The number of warnings
@return
@retval FALSE The message was sent successfully
@retval TRUE An error occurred and the messages wasn't sent properly
*/
static bool write_eof_packet(THD *thd, NET *net,
uint server_status,
uint statement_warn_count)
{
bool error;
if (thd->client_capabilities & CLIENT_PROTOCOL_41)
{
uchar buff[5];
/*
Don't send warn count during SP execution, as the warn_list
is cleared between substatements, and mysqltest gets confused
*/
uint tmp= min(statement_warn_count, 65535);
buff[0]= 254;
int2store(buff+1, tmp);
/*
The following test should never be true, but it's better to do it
because if 'is_fatal_error' is set the server is not going to execute
other queries (see the if test in dispatch_command / COM_QUERY)
*/
if (thd->is_fatal_error)
server_status&= ~SERVER_MORE_RESULTS_EXISTS;
int2store(buff + 3, server_status);
error= my_net_write(net, buff, 5);
}
else
error= my_net_write(net, eof_buff, 1);
return error;
}
/**
Please client to send scrambled_password in old format.
@param thd thread handle
@retval
0 ok
@retval
!0 error
*/
bool send_old_password_request(THD *thd)
{
NET *net= &thd->net;
return my_net_write(net, eof_buff, 1) || net_flush(net);
}
/**
@param thd Thread handler
@param sql_errno The error code to send
@param err A pointer to the error message
@return
@retval FALSE The message was successfully sent
@retval TRUE An error occurred and the messages wasn't sent properly
*/
bool net_send_error_packet(THD *thd, uint sql_errno, const char *err,
const char* sqlstate)
{
NET *net= &thd->net;
uint length;
/*
buff[]: sql_errno:2 + ('#':1 + SQLSTATE_LENGTH:5) + MYSQL_ERRMSG_SIZE:512
*/
uint error;
uchar converted_err[MYSQL_ERRMSG_SIZE];
uint32 converted_err_len;
uchar buff[2+1+SQLSTATE_LENGTH+MYSQL_ERRMSG_SIZE], *pos;
DBUG_ENTER("send_error_packet");
if (net->vio == 0)
{
if (thd->bootstrap)
{
/* In bootstrap it's ok to print on stderr */
fprintf(stderr,"ERROR: %d %s\n",sql_errno,err);
}
DBUG_RETURN(FALSE);
}
int2store(buff,sql_errno);
pos= buff+2;
if (thd->client_capabilities & CLIENT_PROTOCOL_41)
{
/* The first # is to make the protocol backward compatible */
buff[2]= '#';
pos= (uchar*) strmov((char*) buff+3, sqlstate);
}
converted_err_len= convert_error_message((char*)converted_err,
sizeof(converted_err),
thd->variables.character_set_results,
err, strlen(err),
system_charset_info, &error);
length= (uint) (strmake((char*) pos, (char*)converted_err,
MYSQL_ERRMSG_SIZE - 1) - (char*) buff);
err= (char*) buff;
DBUG_RETURN(net_write_command(net,(uchar) 255, (uchar*) "", 0, (uchar*) err,
length));
}
#endif /* EMBEDDED_LIBRARY */
/**
Faster net_store_length when we know that length is less than 65536.
We keep a separate version for that range because it's widely used in
libmysql.
uint is used as agrument type because of MySQL type conventions:
- uint for 0..65536
- ulong for 0..4294967296
- ulonglong for bigger numbers.
*/
static uchar *net_store_length_fast(uchar *packet, uint length)
{
if (length < 251)
{
*packet=(uchar) length;
return packet+1;
}
*packet++=252;
int2store(packet,(uint) length);
return packet+2;
}
/**
Send the status of the current statement execution over network.
@param thd in fact, carries two parameters, NET for the transport and
Diagnostics_area as the source of status information.
In MySQL, there are two types of SQL statements: those that return
a result set and those that return status information only.
If a statement returns a result set, it consists of 3 parts:
- result set meta-data
- variable number of result set rows (can be 0)
- followed and terminated by EOF or ERROR packet
Once the client has seen the meta-data information, it always
expects an EOF or ERROR to terminate the result set. If ERROR is
received, the result set rows are normally discarded (this is up
to the client implementation, libmysql at least does discard them).
EOF, on the contrary, means "successfully evaluated the entire
result set". Since we don't know how many rows belong to a result
set until it's evaluated, EOF/ERROR is the indicator of the end
of the row stream. Note, that we can not buffer result set rows
on the server -- there may be an arbitrary number of rows. But
we do buffer the last packet (EOF/ERROR) in the Diagnostics_area and
delay sending it till the very end of execution (here), to be able to
change EOF to an ERROR if commit failed or some other error occurred
during the last cleanup steps taken after execution.
A statement that does not return a result set doesn't send result
set meta-data either. Instead it returns one of:
- OK packet
- ERROR packet.
Similarly to the EOF/ERROR of the previous statement type, OK/ERROR
packet is "buffered" in the diagnostics area and sent to the client
in the end of statement.
@note This method defines a template, but delegates actual
sending of data to virtual Protocol::send_{ok,eof,error}. This
allows for implementation of protocols that "intercept" ok/eof/error
messages, and store them in memory, etc, instead of sending to
the client.
@pre The diagnostics area is assigned or disabled. It can not be empty
-- we assume that every SQL statement or COM_* command
generates OK, ERROR, or EOF status.
@post The status information is encoded to protocol format and sent to the
client.
@return We conventionally return void, since the only type of error
that can happen here is a NET (transport) error, and that one
will become visible when we attempt to read from the NET the
next command.
Diagnostics_area::is_sent is set for debugging purposes only.
*/
void Protocol::end_statement()
{
DBUG_ENTER("Protocol::end_statement");
DBUG_ASSERT(! thd->stmt_da->is_sent);
bool error= FALSE;
/* Can not be true, but do not take chances in production. */
if (thd->stmt_da->is_sent)
DBUG_VOID_RETURN;
switch (thd->stmt_da->status()) {
case Diagnostics_area::DA_ERROR:
/* The query failed, send error to log and abort bootstrap. */
error= send_error(thd->stmt_da->sql_errno(),
thd->stmt_da->message(),
thd->stmt_da->get_sqlstate());
break;
case Diagnostics_area::DA_EOF:
error= send_eof(thd->stmt_da->server_status(),
thd->stmt_da->statement_warn_count());
break;
case Diagnostics_area::DA_OK:
error= send_ok(thd->stmt_da->server_status(),
thd->stmt_da->statement_warn_count(),
thd->stmt_da->affected_rows(),
thd->stmt_da->last_insert_id(),
thd->stmt_da->message());
break;
case Diagnostics_area::DA_DISABLED:
break;
case Diagnostics_area::DA_EMPTY:
default:
DBUG_ASSERT(0);
error= send_ok(thd->server_status, 0, 0, 0, NULL);
break;
}
if (!error)
thd->stmt_da->is_sent= TRUE;
DBUG_VOID_RETURN;
}
/**
A default implementation of "OK" packet response to the client.
Currently this implementation is re-used by both network-oriented
protocols -- the binary and text one. They do not differ
in their OK packet format, which allows for a significant simplification
on client side.
*/
bool Protocol::send_ok(uint server_status, uint statement_warn_count,
ulonglong affected_rows, ulonglong last_insert_id,
const char *message)
{
DBUG_ENTER("Protocol::send_ok");
DBUG_RETURN(net_send_ok(thd, server_status, statement_warn_count,
affected_rows, last_insert_id, message));
}
/**
A default implementation of "EOF" packet response to the client.
Binary and text protocol do not differ in their EOF packet format.
*/
bool Protocol::send_eof(uint server_status, uint statement_warn_count)
{
DBUG_ENTER("Protocol::send_eof");
DBUG_RETURN(net_send_eof(thd, server_status, statement_warn_count));
}
/**
A default implementation of "ERROR" packet response to the client.
Binary and text protocol do not differ in ERROR packet format.
*/
bool Protocol::send_error(uint sql_errno, const char *err_msg,
const char *sql_state)
{
DBUG_ENTER("Protocol::send_error");
DBUG_RETURN(net_send_error_packet(thd, sql_errno, err_msg, sql_state));
}
/****************************************************************************
Functions used by the protocol functions (like net_send_ok) to store
strings and numbers in the header result packet.
****************************************************************************/
/* The following will only be used for short strings < 65K */
uchar *net_store_data(uchar *to, const uchar *from, size_t length)
{
to=net_store_length_fast(to,length);
memcpy(to,from,length);
return to+length;
}
uchar *net_store_data(uchar *to,int32 from)
{
char buff[20];
uint length=(uint) (int10_to_str(from,buff,10)-buff);
to=net_store_length_fast(to,length);
memcpy(to,buff,length);
return to+length;
}
uchar *net_store_data(uchar *to,longlong from)
{
char buff[22];
uint length=(uint) (longlong10_to_str(from,buff,10)-buff);
to=net_store_length_fast(to,length);
memcpy(to,buff,length);
return to+length;
}
/*****************************************************************************
Default Protocol functions
*****************************************************************************/
void Protocol::init(THD *thd_arg)
{
thd=thd_arg;
packet= &thd->packet;
convert= &thd->convert_buffer;
#ifndef DBUG_OFF
field_types= 0;
#endif
}
/**
Finish the result set with EOF packet, as is expected by the client,
if there is an error evaluating the next row and a continue handler
for the error.
*/
void Protocol::end_partial_result_set(THD *thd_arg)
{
net_send_eof(thd_arg, thd_arg->server_status,
0 /* no warnings, we're inside SP */);
}
bool Protocol::flush()
{
#ifndef EMBEDDED_LIBRARY
return net_flush(&thd->net);
#else
return 0;
#endif
}
#ifndef EMBEDDED_LIBRARY
/**
Send name and type of result to client.
Sum fields has table name empty and field_name.
@param THD Thread data object
@param list List of items to send to client
@param flag Bit mask with the following functions:
- 1 send number of rows
- 2 send default values
- 4 don't write eof packet
@retval
0 ok
@retval
1 Error (Note that in this case the error is not sent to the
client)
*/
bool Protocol::send_result_set_metadata(List<Item> *list, uint flags)
{
List_iterator_fast<Item> it(*list);
Item *item;
uchar buff[MAX_FIELD_WIDTH];
String tmp((char*) buff,sizeof(buff),&my_charset_bin);
Protocol_text prot(thd);
String *local_packet= prot.storage_packet();
CHARSET_INFO *thd_charset= thd->variables.character_set_results;
DBUG_ENTER("send_result_set_metadata");
if (flags & SEND_NUM_ROWS)
{ // Packet with number of elements
uchar *pos= net_store_length(buff, list->elements);
(void) my_net_write(&thd->net, buff, (size_t) (pos-buff));
}
#ifndef DBUG_OFF
field_types= (enum_field_types*) thd->alloc(sizeof(field_types) *
list->elements);
uint count= 0;
#endif
while ((item=it++))
{
char *pos;
CHARSET_INFO *cs= system_charset_info;
Send_field field;
item->make_field(&field);
/* Keep things compatible for old clients */
if (field.type == MYSQL_TYPE_VARCHAR)
field.type= MYSQL_TYPE_VAR_STRING;
prot.prepare_for_resend();
if (thd->client_capabilities & CLIENT_PROTOCOL_41)
{
if (prot.store(STRING_WITH_LEN("def"), cs, thd_charset) ||
prot.store(field.db_name, (uint) strlen(field.db_name),
cs, thd_charset) ||
prot.store(field.table_name, (uint) strlen(field.table_name),
cs, thd_charset) ||
prot.store(field.org_table_name, (uint) strlen(field.org_table_name),
cs, thd_charset) ||
prot.store(field.col_name, (uint) strlen(field.col_name),
cs, thd_charset) ||
prot.store(field.org_col_name, (uint) strlen(field.org_col_name),
cs, thd_charset) ||
local_packet->realloc(local_packet->length()+12))
goto err;
/* Store fixed length fields */
pos= (char*) local_packet->ptr()+local_packet->length();
*pos++= 12; // Length of packed fields
if (item->charset_for_protocol() == &my_charset_bin || thd_charset == NULL)
{
/* No conversion */
int2store(pos, item->charset_for_protocol()->number);
int4store(pos+2, field.length);
}
else
{
/* With conversion */
ulonglong max_length;
uint32 field_length;
int2store(pos, thd_charset->number);
/*
For TEXT/BLOB columns, field_length describes the maximum data
length in bytes. There is no limit to the number of characters
that a TEXT column can store, as long as the data fits into
the designated space.
For the rest of textual columns, field_length is evaluated as
char_count * mbmaxlen, where character count is taken from the
definition of the column. In other words, the maximum number
of characters here is limited by the column definition.
When one has a LONG TEXT column with a single-byte
character set, and the connection character set is multi-byte, the
client may get fields longer than UINT_MAX32, due to
<character set column> -> <character set connection> conversion.
In that case column max length does not fit into the 4 bytes
reserved for it in the protocol.
*/
max_length= (field.type >= MYSQL_TYPE_TINY_BLOB &&
field.type <= MYSQL_TYPE_BLOB) ?
field.length / item->collation.collation->mbminlen :
field.length / item->collation.collation->mbmaxlen;
max_length*= thd_charset->mbmaxlen;
field_length= (max_length > UINT_MAX32) ?
UINT_MAX32 : (uint32) max_length;
int4store(pos + 2, field_length);
}
pos[6]= field.type;
int2store(pos+7,field.flags);
pos[9]= (char) field.decimals;
pos[10]= 0; // For the future
pos[11]= 0; // For the future
pos+= 12;
}
else
{
if (prot.store(field.table_name, (uint) strlen(field.table_name),
cs, thd_charset) ||
prot.store(field.col_name, (uint) strlen(field.col_name),
cs, thd_charset) ||
local_packet->realloc(local_packet->length()+10))
goto err;
pos= (char*) local_packet->ptr()+local_packet->length();
#ifdef TO_BE_DELETED_IN_6
if (!(thd->client_capabilities & CLIENT_LONG_FLAG))
{
pos[0]=3;
int3store(pos+1,field.length);
pos[4]=1;
pos[5]=field.type;
pos[6]=2;
pos[7]= (char) field.flags;
pos[8]= (char) field.decimals;
pos+= 9;
}
else
#endif
{
pos[0]=3;
int3store(pos+1,field.length);
pos[4]=1;
pos[5]=field.type;
pos[6]=3;
int2store(pos+7,field.flags);
pos[9]= (char) field.decimals;
pos+= 10;
}
}
local_packet->length((uint) (pos - local_packet->ptr()));
if (flags & SEND_DEFAULTS)
item->send(&prot, &tmp); // Send default value
if (prot.write())
break; /* purecov: inspected */
#ifndef DBUG_OFF
field_types[count++]= field.type;
#endif
}
if (flags & SEND_EOF)
{
/*
Mark the end of meta-data result set, and store thd->server_status,
to show that there is no cursor.
Send no warning information, as it will be sent at statement end.
*/
write_eof_packet(thd, &thd->net, thd->server_status,
thd->warning_info->statement_warn_count());
}
DBUG_RETURN(prepare_for_send(list->elements));
err:
my_message(ER_OUT_OF_RESOURCES, ER(ER_OUT_OF_RESOURCES),
MYF(0)); /* purecov: inspected */
DBUG_RETURN(1); /* purecov: inspected */
}
bool Protocol::write()
{
DBUG_ENTER("Protocol::write");
DBUG_RETURN(my_net_write(&thd->net, (uchar*) packet->ptr(),
packet->length()));
}
#endif /* EMBEDDED_LIBRARY */
/**
Send one result set row.
@param row_items a collection of column values for that row
@return Error status.
@retval TRUE Error.
@retval FALSE Success.
*/
bool Protocol::send_result_set_row(List<Item> *row_items)
{
char buffer[MAX_FIELD_WIDTH];
String str_buffer(buffer, sizeof (buffer), &my_charset_bin);
List_iterator_fast<Item> it(*row_items);
DBUG_ENTER("Protocol::send_result_set_row");
for (Item *item= it++; item; item= it++)
{
if (item->send(this, &str_buffer))
{
// If we're out of memory, reclaim some, to help us recover.
this->free();
DBUG_RETURN(TRUE);
}
/* Item::send() may generate an error. If so, abort the loop. */
if (thd->is_error())
DBUG_RETURN(TRUE);
/*
Reset str_buffer to its original state, as it may have been altered in
Item::send().
*/
str_buffer.set(buffer, sizeof(buffer), &my_charset_bin);
}
DBUG_RETURN(FALSE);
}
/**
Send \\0 end terminated string.
@param from NullS or \\0 terminated string
@note
In most cases one should use store(from, length) instead of this function
@retval
0 ok
@retval
1 error
*/
bool Protocol::store(const char *from, CHARSET_INFO *cs)
{
if (!from)
return store_null();
uint length= strlen(from);
return store(from, length, cs);
}
/**
Send a set of strings as one long string with ',' in between.
*/
bool Protocol::store(I_List<i_string>* str_list)
{
char buf[256];
String tmp(buf, sizeof(buf), &my_charset_bin);
uint32 len;
I_List_iterator<i_string> it(*str_list);
i_string* s;
tmp.length(0);
while ((s=it++))
{
tmp.append(s->ptr);
tmp.append(',');
}
if ((len= tmp.length()))
len--; // Remove last ','
return store((char*) tmp.ptr(), len, tmp.charset());
}
/****************************************************************************
Functions to handle the simple (default) protocol where everything is
This protocol is the one that is used by default between the MySQL server
and client when you are not using prepared statements.
All data are sent as 'packed-string-length' followed by 'string-data'
****************************************************************************/
#ifndef EMBEDDED_LIBRARY
void Protocol_text::prepare_for_resend()
{
packet->length(0);
#ifndef DBUG_OFF
field_pos= 0;
#endif
}
bool Protocol_text::store_null()
{
#ifndef DBUG_OFF
field_pos++;
#endif
char buff[1];
buff[0]= (char)251;
return packet->append(buff, sizeof(buff), PACKET_BUFFER_EXTRA_ALLOC);
}
#endif
/**
Auxilary function to convert string to the given character set
and store in network buffer.
*/
bool Protocol::store_string_aux(const char *from, size_t length,
CHARSET_INFO *fromcs, CHARSET_INFO *tocs)
{
/* 'tocs' is set 0 when client issues SET character_set_results=NULL */
if (tocs && !my_charset_same(fromcs, tocs) &&
fromcs != &my_charset_bin &&
tocs != &my_charset_bin)
{
/* Store with conversion */
return net_store_data((uchar*) from, length, fromcs, tocs);
}
/* Store without conversion */
return net_store_data((uchar*) from, length);
}
bool Protocol_text::store(const char *from, size_t length,
CHARSET_INFO *fromcs, CHARSET_INFO *tocs)
{
#ifndef DBUG_OFF
DBUG_ASSERT(field_types == 0 ||
field_types[field_pos] == MYSQL_TYPE_DECIMAL ||
field_types[field_pos] == MYSQL_TYPE_BIT ||
field_types[field_pos] == MYSQL_TYPE_NEWDECIMAL ||
(field_types[field_pos] >= MYSQL_TYPE_ENUM &&
field_types[field_pos] <= MYSQL_TYPE_GEOMETRY));
field_pos++;
#endif
return store_string_aux(from, length, fromcs, tocs);
}
bool Protocol_text::store(const char *from, size_t length,
CHARSET_INFO *fromcs)
{
CHARSET_INFO *tocs= this->thd->variables.character_set_results;
#ifndef DBUG_OFF
DBUG_PRINT("info", ("Protocol_text::store field %u (%u): %*.s",
field_pos, field_count, (int) length, from));
DBUG_ASSERT(field_pos < field_count);
DBUG_ASSERT(field_types == 0 ||
field_types[field_pos] == MYSQL_TYPE_DECIMAL ||
field_types[field_pos] == MYSQL_TYPE_BIT ||
field_types[field_pos] == MYSQL_TYPE_NEWDECIMAL ||
field_types[field_pos] == MYSQL_TYPE_NEWDATE ||
(field_types[field_pos] >= MYSQL_TYPE_ENUM &&
field_types[field_pos] <= MYSQL_TYPE_GEOMETRY));
field_pos++;
#endif
return store_string_aux(from, length, fromcs, tocs);
}
bool Protocol_text::store_tiny(longlong from)
{
#ifndef DBUG_OFF
DBUG_ASSERT(field_types == 0 || field_types[field_pos] == MYSQL_TYPE_TINY);
field_pos++;
#endif
char buff[20];
return net_store_data((uchar*) buff,
(size_t) (int10_to_str((int) from, buff, -10) - buff));
}
bool Protocol_text::store_short(longlong from)
{
#ifndef DBUG_OFF
DBUG_ASSERT(field_types == 0 ||
field_types[field_pos] == MYSQL_TYPE_YEAR ||
field_types[field_pos] == MYSQL_TYPE_SHORT);
field_pos++;
#endif
char buff[20];
return net_store_data((uchar*) buff,
(size_t) (int10_to_str((int) from, buff, -10) -
buff));
}
bool Protocol_text::store_long(longlong from)
{
#ifndef DBUG_OFF
DBUG_ASSERT(field_types == 0 ||
field_types[field_pos] == MYSQL_TYPE_INT24 ||
field_types[field_pos] == MYSQL_TYPE_LONG);
field_pos++;
#endif
char buff[20];
return net_store_data((uchar*) buff,
(size_t) (int10_to_str((long int)from, buff,
(from <0)?-10:10)-buff));
}
bool Protocol_text::store_longlong(longlong from, bool unsigned_flag)
{
#ifndef DBUG_OFF
DBUG_ASSERT(field_types == 0 ||
field_types[field_pos] == MYSQL_TYPE_LONGLONG);
field_pos++;
#endif
char buff[22];
return net_store_data((uchar*) buff,
(size_t) (longlong10_to_str(from,buff,
unsigned_flag ? 10 : -10)-
buff));
}
bool Protocol_text::store_decimal(const my_decimal *d)
{
#ifndef DBUG_OFF
DBUG_ASSERT(field_types == 0 ||
field_types[field_pos] == MYSQL_TYPE_NEWDECIMAL);
field_pos++;
#endif
char buff[DECIMAL_MAX_STR_LENGTH];
String str(buff, sizeof(buff), &my_charset_bin);
(void) my_decimal2string(E_DEC_FATAL_ERROR, d, 0, 0, 0, &str);
return net_store_data((uchar*) str.ptr(), str.length());
}
bool Protocol_text::store(float from, uint32 decimals, String *buffer)
{
#ifndef DBUG_OFF
DBUG_ASSERT(field_types == 0 ||
field_types[field_pos] == MYSQL_TYPE_FLOAT);
field_pos++;
#endif
buffer->set_real((double) from, decimals, thd->charset());
return net_store_data((uchar*) buffer->ptr(), buffer->length());
}
bool Protocol_text::store(double from, uint32 decimals, String *buffer)
{
#ifndef DBUG_OFF
DBUG_ASSERT(field_types == 0 ||
field_types[field_pos] == MYSQL_TYPE_DOUBLE);
field_pos++;
#endif
buffer->set_real(from, decimals, thd->charset());
return net_store_data((uchar*) buffer->ptr(), buffer->length());
}
bool Protocol_text::store(Field *field)
{
if (field->is_null())
return store_null();
#ifndef DBUG_OFF
field_pos++;
#endif
char buff[MAX_FIELD_WIDTH];
String str(buff,sizeof(buff), &my_charset_bin);
CHARSET_INFO *tocs= this->thd->variables.character_set_results;
#ifndef DBUG_OFF
TABLE *table= field->table;
my_bitmap_map *old_map= 0;
if (table->file)
old_map= dbug_tmp_use_all_columns(table, table->read_set);
#endif
field->val_str(&str);
#ifndef DBUG_OFF
if (old_map)
dbug_tmp_restore_column_map(table->read_set, old_map);
#endif
return store_string_aux(str.ptr(), str.length(), str.charset(), tocs);
}
/**
@todo
Second_part format ("%06") needs to change when
we support 0-6 decimals for time.
*/
bool Protocol_text::store(MYSQL_TIME *tm)
{
#ifndef DBUG_OFF
DBUG_ASSERT(field_types == 0 ||
field_types[field_pos] == MYSQL_TYPE_DATETIME ||
field_types[field_pos] == MYSQL_TYPE_TIMESTAMP);
field_pos++;
#endif
char buff[40];
uint length;
length= my_sprintf(buff,(buff, "%04d-%02d-%02d %02d:%02d:%02d",
(int) tm->year,
(int) tm->month,
(int) tm->day,
(int) tm->hour,
(int) tm->minute,
(int) tm->second));
if (tm->second_part)
length+= my_sprintf(buff+length,(buff+length, ".%06d",
(int)tm->second_part));
return net_store_data((uchar*) buff, length);
}
bool Protocol_text::store_date(MYSQL_TIME *tm)
{
#ifndef DBUG_OFF
DBUG_ASSERT(field_types == 0 ||
field_types[field_pos] == MYSQL_TYPE_DATE);
field_pos++;
#endif
char buff[MAX_DATE_STRING_REP_LENGTH];
size_t length= my_date_to_str(tm, buff);
return net_store_data((uchar*) buff, length);
}
/**
@todo
Second_part format ("%06") needs to change when
we support 0-6 decimals for time.
*/
bool Protocol_text::store_time(MYSQL_TIME *tm)
{
#ifndef DBUG_OFF
DBUG_ASSERT(field_types == 0 ||
field_types[field_pos] == MYSQL_TYPE_TIME);
field_pos++;
#endif
char buff[40];
uint length;
uint day= (tm->year || tm->month) ? 0 : tm->day;
length= my_sprintf(buff,(buff, "%s%02ld:%02d:%02d",
tm->neg ? "-" : "",
(long) day*24L+(long) tm->hour,
(int) tm->minute,
(int) tm->second));
if (tm->second_part)
length+= my_sprintf(buff+length,(buff+length, ".%06d", (int)tm->second_part));
return net_store_data((uchar*) buff, length);
}
/**
Assign OUT-parameters to user variables.
@param sp_params List of PS/SP parameters (both input and output).
@return Error status.
@retval FALSE Success.
@retval TRUE Error.
*/
bool Protocol_text::send_out_parameters(List<Item_param> *sp_params)
{
DBUG_ASSERT(sp_params->elements ==
thd->lex->prepared_stmt_params.elements);
List_iterator_fast<Item_param> item_param_it(*sp_params);
List_iterator_fast<LEX_STRING> user_var_name_it(thd->lex->prepared_stmt_params);
while (true)
{
Item_param *item_param= item_param_it++;
LEX_STRING *user_var_name= user_var_name_it++;
if (!item_param || !user_var_name)
break;
if (!item_param->get_out_param_info())
continue; // It's an IN-parameter.
Item_func_set_user_var *suv=
new Item_func_set_user_var(*user_var_name, item_param);
/*
Item_func_set_user_var is not fixed after construction, call
fix_fields().
*/
if (suv->fix_fields(thd, NULL))
return TRUE;
if (suv->check(FALSE))
return TRUE;
if (suv->update())
return TRUE;
}
return FALSE;
}
/****************************************************************************
Functions to handle the binary protocol used with prepared statements
Data format:
[ok:1] reserved ok packet
[null_field:(field_count+7+2)/8] reserved to send null data. The size is
calculated using:
bit_fields= (field_count+7+2)/8;
2 bits are reserved for identifying type
of package.
[[length]data] data field (the length applies only for
string/binary/time/timestamp fields and
rest of them are not sent as they have
the default length that client understands
based on the field type
[..]..[[length]data] data
****************************************************************************/
bool Protocol_binary::prepare_for_send(uint num_columns)
{
Protocol::prepare_for_send(num_columns);
bit_fields= (field_count+9)/8;
return packet->alloc(bit_fields+1);
/* prepare_for_resend will be called after this one */
}
void Protocol_binary::prepare_for_resend()
{
packet->length(bit_fields+1);
bzero((uchar*) packet->ptr(), 1+bit_fields);
field_pos=0;
}
bool Protocol_binary::store(const char *from, size_t length,
CHARSET_INFO *fromcs)
{
CHARSET_INFO *tocs= thd->variables.character_set_results;
field_pos++;
return store_string_aux(from, length, fromcs, tocs);
}
bool Protocol_binary::store(const char *from, size_t length,
CHARSET_INFO *fromcs, CHARSET_INFO *tocs)
{
field_pos++;
return store_string_aux(from, length, fromcs, tocs);
}
bool Protocol_binary::store_null()
{
uint offset= (field_pos+2)/8+1, bit= (1 << ((field_pos+2) & 7));
/* Room for this as it's allocated in prepare_for_send */
char *to= (char*) packet->ptr()+offset;
*to= (char) ((uchar) *to | (uchar) bit);
field_pos++;
return 0;
}
bool Protocol_binary::store_tiny(longlong from)
{
char buff[1];
field_pos++;
buff[0]= (uchar) from;
return packet->append(buff, sizeof(buff), PACKET_BUFFER_EXTRA_ALLOC);
}
bool Protocol_binary::store_short(longlong from)
{
field_pos++;
char *to= packet->prep_append(2, PACKET_BUFFER_EXTRA_ALLOC);
if (!to)
return 1;
int2store(to, (int) from);
return 0;
}
bool Protocol_binary::store_long(longlong from)
{
field_pos++;
char *to= packet->prep_append(4, PACKET_BUFFER_EXTRA_ALLOC);
if (!to)
return 1;
int4store(to, from);
return 0;
}
bool Protocol_binary::store_longlong(longlong from, bool unsigned_flag)
{
field_pos++;
char *to= packet->prep_append(8, PACKET_BUFFER_EXTRA_ALLOC);
if (!to)
return 1;
int8store(to, from);
return 0;
}
bool Protocol_binary::store_decimal(const my_decimal *d)
{
#ifndef DBUG_OFF
DBUG_ASSERT(field_types == 0 ||
field_types[field_pos] == MYSQL_TYPE_NEWDECIMAL);
field_pos++;
#endif
char buff[DECIMAL_MAX_STR_LENGTH];
String str(buff, sizeof(buff), &my_charset_bin);
(void) my_decimal2string(E_DEC_FATAL_ERROR, d, 0, 0, 0, &str);
return store(str.ptr(), str.length(), str.charset());
}
bool Protocol_binary::store(float from, uint32 decimals, String *buffer)
{
field_pos++;
char *to= packet->prep_append(4, PACKET_BUFFER_EXTRA_ALLOC);
if (!to)
return 1;
float4store(to, from);
return 0;
}
bool Protocol_binary::store(double from, uint32 decimals, String *buffer)
{
field_pos++;
char *to= packet->prep_append(8, PACKET_BUFFER_EXTRA_ALLOC);
if (!to)
return 1;
float8store(to, from);
return 0;
}
bool Protocol_binary::store(Field *field)
{
/*
We should not increment field_pos here as send_binary() will call another
protocol function to do this for us
*/
if (field->is_null())
return store_null();
return field->send_binary(this);
}
bool Protocol_binary::store(MYSQL_TIME *tm)
{
char buff[12],*pos;
uint length;
field_pos++;
pos= buff+1;
int2store(pos, tm->year);
pos[2]= (uchar) tm->month;
pos[3]= (uchar) tm->day;
pos[4]= (uchar) tm->hour;
pos[5]= (uchar) tm->minute;
pos[6]= (uchar) tm->second;
int4store(pos+7, tm->second_part);
if (tm->second_part)
length=11;
else if (tm->hour || tm->minute || tm->second)
length=7;
else if (tm->year || tm->month || tm->day)
length=4;
else
length=0;
buff[0]=(char) length; // Length is stored first
return packet->append(buff, length+1, PACKET_BUFFER_EXTRA_ALLOC);
}
bool Protocol_binary::store_date(MYSQL_TIME *tm)
{
tm->hour= tm->minute= tm->second=0;
tm->second_part= 0;
return Protocol_binary::store(tm);
}
bool Protocol_binary::store_time(MYSQL_TIME *tm)
{
char buff[13], *pos;
uint length;
field_pos++;
pos= buff+1;
pos[0]= tm->neg ? 1 : 0;
if (tm->hour >= 24)
{
/* Fix if we come from Item::send */
uint days= tm->hour/24;
tm->hour-= days*24;
tm->day+= days;
}
int4store(pos+1, tm->day);
pos[5]= (uchar) tm->hour;
pos[6]= (uchar) tm->minute;
pos[7]= (uchar) tm->second;
int4store(pos+8, tm->second_part);
if (tm->second_part)
length=12;
else if (tm->hour || tm->minute || tm->second || tm->day)
length=8;
else
length=0;
buff[0]=(char) length; // Length is stored first
return packet->append(buff, length+1, PACKET_BUFFER_EXTRA_ALLOC);
}
/**
Send a result set with OUT-parameter values by means of PS-protocol.
@param sp_params List of PS/SP parameters (both input and output).
@return Error status.
@retval FALSE Success.
@retval TRUE Error.
*/
bool Protocol_binary::send_out_parameters(List<Item_param> *sp_params)
{
if (!(thd->client_capabilities & CLIENT_PS_MULTI_RESULTS))
{
/* The client does not support OUT-parameters. */
return FALSE;
}
List<Item> out_param_lst;
{
List_iterator_fast<Item_param> item_param_it(*sp_params);
while (true)
{
Item_param *item_param= item_param_it++;
if (!item_param)
break;
if (!item_param->get_out_param_info())
continue; // It's an IN-parameter.
if (out_param_lst.push_back(item_param))
return TRUE;
}
}
if (!out_param_lst.elements)
return FALSE;
/*
We have to set SERVER_PS_OUT_PARAMS in THD::server_status, because it
is used in send_result_set_metadata().
*/
thd->server_status|= SERVER_PS_OUT_PARAMS | SERVER_MORE_RESULTS_EXISTS;
/* Send meta-data. */
if (send_result_set_metadata(&out_param_lst, SEND_NUM_ROWS | SEND_EOF))
return TRUE;
/* Send data. */
prepare_for_resend();
if (send_result_set_row(&out_param_lst))
return TRUE;
if (write())
return TRUE;
/* Restore THD::server_status. */
thd->server_status&= ~SERVER_PS_OUT_PARAMS;
/*
Reset SERVER_MORE_RESULTS_EXISTS bit, because this is the last packet
for sure.
*/
thd->server_status&= ~SERVER_MORE_RESULTS_EXISTS;
/* Send EOF-packet. */
net_send_eof(thd, thd->server_status, 0);
return FALSE;
}
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