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/* Copyright (c) 2002, 2021, 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, version 2.0,
as published by the Free Software Foundation.
This program is also distributed with certain software (including
but not limited to OpenSSL) that is licensed under separate terms,
as designated in a particular file or component or in included license
documentation. The authors of MySQL hereby grant you an additional
permission to link the program and your derivative works with the
separately licensed software that they have included with MySQL.
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, version 2.0, 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 */
/**********************************************************************
This file contains the implementation of error and warnings related
- Whenever an error or warning occurred, it pushes it to a warning list
that the user can retrieve with SHOW WARNINGS or SHOW ERRORS.
- For each statement, we return the number of warnings generated from this
command. Note that this can be different from @@warning_count as
we reset the warning list only for questions that uses a table.
This is done to allow on to do:
INSERT ...;
SELECT @@warning_count;
SHOW WARNINGS;
(If we would reset after each command, we could not retrieve the number
of warnings)
- When client requests the information using SHOW command, then
server processes from this list and returns back in the form of
resultset.
Supported syntaxes:
SHOW [COUNT(*)] ERRORS [LIMIT [offset,] rows]
SHOW [COUNT(*)] WARNINGS [LIMIT [offset,] rows]
SELECT @@warning_count, @@error_count;
***********************************************************************/
#include "sql_error.h"
#include "sp_rcontext.h"
#include "log.h" // sql_print_warning
using std::min;
using std::max;
/*
Design notes about Sql_condition::m_message_text.
The member Sql_condition::m_message_text contains the text associated with
an error, warning or note (which are all SQL 'conditions')
Producer of Sql_condition::m_message_text:
----------------------------------------
(#1) the server implementation itself, when invoking functions like
my_error() or push_warning()
(#2) user code in stored programs, when using the SIGNAL statement.
(#3) user code in stored programs, when using the RESIGNAL statement.
When invoking my_error(), the error number and message is typically
provided like this:
- my_error(ER_WRONG_DB_NAME, MYF(0), ...);
- my_message(ER_SLAVE_IGNORED_TABLE, ER(ER_SLAVE_IGNORED_TABLE), MYF(0));
In both cases, the message is retrieved from ER(ER_XXX), which in turn
is read from the resource file errmsg.sys at server startup.
The strings stored in the errmsg.sys file are expressed in the character set
that corresponds to the server --language start option
(see error_message_charset_info).
When executing:
- a SIGNAL statement,
- a RESIGNAL statement,
the message text is provided by the user logic, and is expressed in UTF8.
Storage of Sql_condition::m_message_text:
---------------------------------------
(#4) The class Sql_condition is used to hold the message text member.
This class represents a single SQL condition.
(#5) The class Diagnostics_area contains m_condition_list which
represents a SQL condition area.
Consumer of Sql_condition::m_message_text:
----------------------------------------
(#6) The statements SHOW WARNINGS and SHOW ERRORS display the content of
the warning list.
(#7) The GET DIAGNOSTICS statement reads the content of:
- the top level statement condition area (when executed in a query),
- a sub statement (when executed in a stored program)
and return the data stored in a Sql_condition.
(#8) The RESIGNAL statement reads the Sql_condition caught by an exception
handler, to raise a new or modified condition (in #3).
The big picture
---------------
--------------
| ^
V |
my_error(#1) SIGNAL(#2) RESIGNAL(#3) |
|(#A) |(#B) |(#C) |
| | | |
----------------------------|---------------------------- |
| |
V |
Sql_condition(#4) |
| |
| |
V |
Diagnostics_area(#5) |
| |
----------------------------------------------------- |
| | | |
| | | |
| | | |
V V V |
SHOW WARNINGS(#6) GET DIAGNOSTICS(#7) RESIGNAL(#8) |
| | | | |
| -------- | V |
| | | --------------
V | |
Connectors | |
| | |
-------------------------
|
V
Client application
Current implementation status
-----------------------------
(#1) (my_error) produces data in the 'error_message_charset_info' CHARSET
(#2) and (#3) (SIGNAL, RESIGNAL) produces data internally in UTF8
(#6) (SHOW WARNINGS) produces data in the 'error_message_charset_info' CHARSET
(#7) (GET DIAGNOSTICS) is implemented.
(#8) (RESIGNAL) produces data internally in UTF8 (see #3)
As a result, the design choice for (#4) and (#5) is to store data in
the 'error_message_charset_info' CHARSET, to minimize impact on the code base.
This is implemented by using 'String Sql_condition::m_message_text'.
The UTF8 -> error_message_charset_info conversion is implemented in
Sql_cmd_common_signal::eval_signal_informations() (for path #B and #C).
Future work
-----------
- Change (#1) (my_error) to generate errors in UTF8.
See WL#751 (Recoding of error messages)
- Change (#4 and #5) to store message text in UTF8 natively.
In practice, this means changing the type of the message text to
'<UTF8 String 128 class> Sql_condition::m_message_text', and is a direct
consequence of WL#751.
*/
static void copy_string(MEM_ROOT *mem_root, String* dst, const String* src)
{
size_t len= src->length();
if (len)
{
char* copy= (char*) alloc_root(mem_root, len + 1);
if (copy)
{
memcpy(copy, src->ptr(), len);
copy[len]= '\0';
dst->set(copy, len, src->charset());
}
}
else
dst->length(0);
}
Sql_condition::Sql_condition(MEM_ROOT *mem_root)
:Sql_alloc(),
m_class_origin((const char*) NULL, 0, & my_charset_utf8_bin),
m_subclass_origin((const char*) NULL, 0, & my_charset_utf8_bin),
m_constraint_catalog((const char*) NULL, 0, & my_charset_utf8_bin),
m_constraint_schema((const char*) NULL, 0, & my_charset_utf8_bin),
m_constraint_name((const char*) NULL, 0, & my_charset_utf8_bin),
m_catalog_name((const char*) NULL, 0, & my_charset_utf8_bin),
m_schema_name((const char*) NULL, 0, & my_charset_utf8_bin),
m_table_name((const char*) NULL, 0, & my_charset_utf8_bin),
m_column_name((const char*) NULL, 0, & my_charset_utf8_bin),
m_cursor_name((const char*) NULL, 0, & my_charset_utf8_bin),
m_message_text(),
m_mysql_errno(0),
m_severity_level(Sql_condition::SL_ERROR),
m_mem_root(mem_root)
{
assert(mem_root != NULL);
memset(m_returned_sqlstate, 0, sizeof(m_returned_sqlstate));
}
Sql_condition::Sql_condition(MEM_ROOT *mem_root, uint mysql_errno,
const char* returned_sqlstate,
Sql_condition::enum_severity_level severity,
const char* message_text)
:Sql_alloc(),
m_class_origin((const char*) NULL, 0, & my_charset_utf8_bin),
m_subclass_origin((const char*) NULL, 0, & my_charset_utf8_bin),
m_constraint_catalog((const char*) NULL, 0, & my_charset_utf8_bin),
m_constraint_schema((const char*) NULL, 0, & my_charset_utf8_bin),
m_constraint_name((const char*) NULL, 0, & my_charset_utf8_bin),
m_catalog_name((const char*) NULL, 0, & my_charset_utf8_bin),
m_schema_name((const char*) NULL, 0, & my_charset_utf8_bin),
m_table_name((const char*) NULL, 0, & my_charset_utf8_bin),
m_column_name((const char*) NULL, 0, & my_charset_utf8_bin),
m_cursor_name((const char*) NULL, 0, & my_charset_utf8_bin),
m_message_text(),
m_mysql_errno(mysql_errno),
m_severity_level(severity),
m_mem_root(mem_root)
{
assert(mem_root != NULL);
assert(mysql_errno != 0);
assert(returned_sqlstate != NULL);
assert(message_text != NULL);
set_message_text(message_text);
set_returned_sqlstate(returned_sqlstate);
set_class_origins();
}
void Sql_condition::copy_opt_attributes(const Sql_condition *cond)
{
assert(this != cond);
copy_string(m_mem_root, & m_class_origin, & cond->m_class_origin);
copy_string(m_mem_root, & m_subclass_origin, & cond->m_subclass_origin);
copy_string(m_mem_root, & m_constraint_catalog, & cond->m_constraint_catalog);
copy_string(m_mem_root, & m_constraint_schema, & cond->m_constraint_schema);
copy_string(m_mem_root, & m_constraint_name, & cond->m_constraint_name);
copy_string(m_mem_root, & m_catalog_name, & cond->m_catalog_name);
copy_string(m_mem_root, & m_schema_name, & cond->m_schema_name);
copy_string(m_mem_root, & m_table_name, & cond->m_table_name);
copy_string(m_mem_root, & m_column_name, & cond->m_column_name);
copy_string(m_mem_root, & m_cursor_name, & cond->m_cursor_name);
}
void Sql_condition::set_message_text(const char* message_text)
{
// See the comments "Design notes about Sql_condition::m_message_text."
const char* copy= strdup_root(m_mem_root, message_text);
m_message_text.set(copy, strlen(copy), error_message_charset_info);
assert(! m_message_text.is_alloced());
}
static LEX_CSTRING sqlstate_origin[]= {
{ STRING_WITH_LEN("ISO 9075") },
{ STRING_WITH_LEN("MySQL") }
};
void Sql_condition::set_class_origins()
{
char cls[2];
/* Let CLASS = the first two letters of RETURNED_SQLSTATE. */
cls[0]= m_returned_sqlstate[0];
cls[1]= m_returned_sqlstate[1];
/* Only digits and upper case latin letter are allowed. */
assert(my_isdigit(&my_charset_latin1, cls[0]) ||
my_isupper(&my_charset_latin1, cls[0]));
assert(my_isdigit(&my_charset_latin1, cls[1]) ||
my_isupper(&my_charset_latin1, cls[1]));
/*
If CLASS[1] is any of: 0 1 2 3 4 A B C D E F G H
and CLASS[2] is any of: 0-9 A-Z,
then let CLASS_ORIGIN = 'ISO 9075'. Otherwise 'MySQL'.
Let SUBCLASS = the next three letters of RETURNED_SQLSTATE.
If CLASS_ORIGIN = 'ISO 9075' or SUBCLASS = '000',
then let SUBCLASS_ORIGIN = 'ISO 9075'. Otherwise 'MySQL'.
*/
if (((cls[0] >= '0' && cls[0] <= '4') || (cls[0] >= 'A' && cls[0] <= 'H')) &&
((cls[1] >= '0' && cls[1] <= '9') || (cls[1] >= 'A' && cls[1] <= 'Z')))
{
// ISO 9075
m_class_origin.set_ascii(sqlstate_origin[0].str,
sqlstate_origin[0].length);
// ISO 9075
m_subclass_origin.set_ascii(sqlstate_origin[0].str,
sqlstate_origin[0].length);
}
else
{
// MySQL
m_class_origin.set_ascii(sqlstate_origin[1].str, sqlstate_origin[1].length);
if (!memcmp(m_returned_sqlstate + 2, STRING_WITH_LEN("000")))
// ISO 9075
m_subclass_origin.set_ascii(sqlstate_origin[0].str,
sqlstate_origin[0].length);
else
// MySQL
m_subclass_origin.set_ascii(sqlstate_origin[1].str,
sqlstate_origin[1].length);
}
}
Diagnostics_area::Diagnostics_area(bool allow_unlimited_conditions)
:m_stacked_da(NULL),
m_is_sent(false),
m_can_overwrite_status(false),
m_allow_unlimited_conditions(allow_unlimited_conditions),
m_status(DA_EMPTY),
m_mysql_errno(0),
m_affected_rows(0),
m_last_insert_id(0),
m_last_statement_cond_count(0),
m_current_statement_cond_count(0),
m_current_row_for_condition(1),
m_saved_error_count(0),
m_saved_warn_count(0)
{
/* Initialize sub structures */
init_sql_alloc(PSI_INSTRUMENT_ME,
&m_condition_root, WARN_ALLOC_BLOCK_SIZE, 0);
m_conditions_list.empty();
memset(m_current_statement_cond_count_by_sl, 0,
sizeof(m_current_statement_cond_count_by_sl));
m_message_text[0]= '\0';
}
Diagnostics_area::~Diagnostics_area()
{
free_root(&m_condition_root,MYF(0));
}
void Diagnostics_area::reset_diagnostics_area()
{
DBUG_ENTER("reset_diagnostics_area");
#ifdef NDEBUG
set_overwrite_status(false);
// Don't take chances in production.
m_message_text[0]= '\0';
m_mysql_errno= 0;
m_affected_rows= 0;
m_last_insert_id= 0;
m_last_statement_cond_count= 0;
#endif
set_is_sent(false);
// Tiny reset in debug mode to see garbage right away.
m_status= DA_EMPTY;
DBUG_VOID_RETURN;
}
void Diagnostics_area::set_ok_status(ulonglong affected_rows,
ulonglong last_insert_id,
const char *message_text)
{
DBUG_ENTER("set_ok_status");
assert(! is_set());
/*
In production, refuse to overwrite an error or a custom response
with an OK packet.
*/
if (is_error() || is_disabled())
DBUG_VOID_RETURN;
m_last_statement_cond_count= current_statement_cond_count();
m_affected_rows= affected_rows;
m_last_insert_id= last_insert_id;
if (message_text)
strmake(m_message_text, message_text, sizeof(m_message_text) - 1);
else
m_message_text[0]= '\0';
m_status= DA_OK;
DBUG_VOID_RETURN;
}
void Diagnostics_area::set_eof_status(THD *thd)
{
DBUG_ENTER("set_eof_status");
/* Only allowed to report eof if has not yet reported an error */
//TIANMU UPGRADE BEGIN
//assert(! is_set());
//END
/*
In production, refuse to overwrite an error or a custom response
with an EOF packet.
*/
if (is_error() || is_disabled())
DBUG_VOID_RETURN;
/*
If inside a stored procedure, do not return the total
number of warnings, since they are not available to the client
anyway.
*/
m_last_statement_cond_count= (thd->sp_runtime_ctx ?
0 :
current_statement_cond_count());
m_status= DA_EOF;
DBUG_VOID_RETURN;
}
void Diagnostics_area::set_error_status(uint mysql_errno)
{
set_error_status(mysql_errno,
ER(mysql_errno),
mysql_errno_to_sqlstate(mysql_errno));
}
void Diagnostics_area::set_error_status(uint mysql_errno,
const char *message_text,
const char *returned_sqlstate)
{
DBUG_ENTER("set_error_status");
/*
Only allowed to report error if has not yet reported a success
The only exception is when we flush the message to the client,
an error can happen during the flush.
*/
assert(! is_set() || m_can_overwrite_status);
// message must be set properly by the caller.
assert(message_text);
// sqlstate must be set properly by the caller.
assert(returned_sqlstate);
#ifdef NDEBUG
/*
In production, refuse to overwrite a custom response with an
ERROR packet.
*/
if (is_disabled())
DBUG_VOID_RETURN;
#endif
m_mysql_errno= mysql_errno;
memcpy(m_returned_sqlstate, returned_sqlstate, SQLSTATE_LENGTH);
m_returned_sqlstate[SQLSTATE_LENGTH]= '\0';
strmake(m_message_text, message_text, sizeof(m_message_text)-1);
m_status= DA_ERROR;
DBUG_VOID_RETURN;
}
bool Diagnostics_area::has_sql_condition(const char *message_text,
size_t message_length) const
{
Sql_condition_iterator it(m_conditions_list);
const Sql_condition *err;
while ((err= it++))
{
if (strncmp(message_text, err->message_text(), message_length) == 0)
return true;
}
return false;
}
bool Diagnostics_area::has_sql_condition(uint sql_errno) const
{
Sql_condition_iterator it(m_conditions_list);
const Sql_condition *err;
while ((err= it++))
{
if (err->mysql_errno() == sql_errno)
return true;
}
return false;
}
const char * Diagnostics_area::get_first_condition_message()
{
if (m_conditions_list.elements())
return m_conditions_list.front()->message_text();
return "";
}
void Diagnostics_area::reset_condition_info(THD *thd)
{
/*
Special case: @@session.error_count, @@session.warning_count
These appear in non-diagnostics statements (SELECT ... [INTO ...], etc.),
so we must clear the DA rather than keep it. To keep these legacy
system variables working, we save the counts before clearing the
(rest of the) DA. The system variables have special getters that access
the saved values where applicable.
*/
if (thd->lex->keep_diagnostics == DA_KEEP_COUNTS)
{
m_saved_error_count=
m_current_statement_cond_count_by_sl[(uint) Sql_condition::SL_ERROR];
m_saved_warn_count=
m_current_statement_cond_count_by_sl[(uint) Sql_condition::SL_NOTE] +
m_current_statement_cond_count_by_sl[(uint) Sql_condition::SL_ERROR] +
m_current_statement_cond_count_by_sl[(uint) Sql_condition::SL_WARNING];
}
m_conditions_list.empty();
m_preexisting_sql_conditions.empty();
free_root(&m_condition_root, MYF(0));
memset(m_current_statement_cond_count_by_sl, 0,
sizeof(m_current_statement_cond_count_by_sl));
m_current_statement_cond_count= 0;
m_current_row_for_condition= 1; /* Start counting from the first row */
}
ulong Diagnostics_area::error_count(THD *thd) const
{
// DA_KEEP_COUNTS: it was SELECT @@error_count, not SHOW COUNT(*) ERRORS
if (thd->lex->keep_diagnostics == DA_KEEP_COUNTS)
return m_saved_error_count;
return m_current_statement_cond_count_by_sl[(uint) Sql_condition::SL_ERROR];
}
ulong Diagnostics_area::warn_count(THD *thd) const
{
// DA_KEEP_COUNTS: it was SELECT @@warning_count, not SHOW COUNT(*) ERRORS
if (thd->lex->keep_diagnostics == DA_KEEP_COUNTS)
return m_saved_warn_count;
/*
This may be higher than warn_list.elements() if we have
had more warnings than thd->variables.max_error_count.
*/
return
m_current_statement_cond_count_by_sl[(uint) Sql_condition::SL_NOTE] +
m_current_statement_cond_count_by_sl[(uint) Sql_condition::SL_ERROR] +
m_current_statement_cond_count_by_sl[(uint) Sql_condition::SL_WARNING];
}
void Diagnostics_area::copy_sql_conditions_from_da(
THD *thd, const Diagnostics_area *src_da)
{
Sql_condition_iterator it(src_da->m_conditions_list);
const Sql_condition *err;
while ((err= it++))
{
// Do not use ::push_warning() to avoid invocation of THD-internal-handlers.
Diagnostics_area::push_warning(thd, err);
}
}
void Diagnostics_area::copy_non_errors_from_da(THD *thd,
const Diagnostics_area *src_da)
{
Sql_condition_iterator it(src_da->m_conditions_list);
const Sql_condition *cond;
while ((cond= it++))
{
if (cond->severity() == Sql_condition::SL_ERROR)
continue;
// Do not use ::push_warning() to avoid invocation of THD-internal-handlers
Diagnostics_area::push_warning(thd, cond);
}
}
void Diagnostics_area::mark_preexisting_sql_conditions()
{
Sql_condition_iterator it(m_conditions_list);
const Sql_condition *cond;
while ((cond= it++))
m_preexisting_sql_conditions.push_back(cond, &m_condition_root);
}
void Diagnostics_area::copy_new_sql_conditions(THD *thd,
const Diagnostics_area *src_da)
{
Sql_condition_iterator it(src_da->m_conditions_list);
List_iterator_fast<const Sql_condition> preexisting_it(
const_cast<List<const Sql_condition>&>
(src_da->m_preexisting_sql_conditions));
const Sql_condition *cond;
const Sql_condition *preexisting_cond;
while ((cond= it++))
{
bool is_new= true;
preexisting_it.rewind();
while (is_new && (preexisting_cond= preexisting_it++))
{
if (preexisting_cond == cond)
is_new= false;
}
// Do not use ::push_warning() to avoid invocation of THD-internal-handlers
if (is_new)
Diagnostics_area::push_warning(thd, cond);
}
}
Sql_condition* Diagnostics_area::error_condition() const
{
Sql_condition_list::Iterator it(m_conditions_list);
Sql_condition *cond;
while ((cond= it++))
{
if (cond->mysql_errno() == mysql_errno() &&
cond->severity() == Sql_condition::SL_ERROR &&
strcmp(cond->returned_sqlstate(), returned_sqlstate()) == 0)
return cond;
}
return NULL;
}
void Diagnostics_area::reserve_number_of_conditions(THD *thd, uint count)
{
while (m_conditions_list.elements() &&
(m_conditions_list.elements() + count) > thd->variables.max_error_count)
m_conditions_list.remove(m_conditions_list.front());
}
Sql_condition*
Diagnostics_area::push_warning(THD *thd,
uint mysql_errno,
const char* returned_sqlstate,
Sql_condition::enum_severity_level severity,
const char *message_text)
{
Sql_condition *cond= NULL;
if (m_allow_unlimited_conditions ||
m_conditions_list.elements() < thd->variables.max_error_count)
{
cond= new (& m_condition_root) Sql_condition(& m_condition_root, mysql_errno,
returned_sqlstate, severity,
message_text);
if (cond)
m_conditions_list.push_back(cond);
}
m_current_statement_cond_count_by_sl[(uint) severity]++;
m_current_statement_cond_count++;
return cond;
}
Sql_condition*
Diagnostics_area::push_warning(THD *thd, const Sql_condition *sql_condition)
{
Sql_condition *new_condition= push_warning(thd,
sql_condition->mysql_errno(),
sql_condition->returned_sqlstate(),
sql_condition->severity(),
sql_condition->message_text());
if (new_condition)
new_condition->copy_opt_attributes(sql_condition);
return new_condition;
}
void Diagnostics_area::push_diagnostics_area(THD *thd, Diagnostics_area *da,
bool copy_conditions)
{
assert(da->m_stacked_da == NULL);
da->m_stacked_da= this;
if (copy_conditions)
{
da->copy_sql_conditions_from_da(thd, this);
da->m_saved_warn_count= m_saved_warn_count;
da->m_saved_error_count= m_saved_error_count;
}
}
Diagnostics_area *Diagnostics_area::pop_diagnostics_area()
{
assert(m_stacked_da);
Diagnostics_area *da= m_stacked_da;
m_stacked_da= NULL;
return da;
}
/**
Push the warning to error list if there is still room in the list.
@param thd Thread handle
@param severity Severity of warning (note, warning)
@param code Error number
@param message_text Clear error message
*/
void push_warning(THD *thd, Sql_condition::enum_severity_level severity,
uint code, const char *message_text)
{
DBUG_ENTER("push_warning");
DBUG_PRINT("enter", ("code: %d, msg: %s", code, message_text));
/*
Calling push_warning/push_warning_printf with a level of
SL_ERROR *is* a bug. Either use my_printf_error(),
my_error(), or SL_WARNING.
*/
assert(severity != Sql_condition::SL_ERROR);
if (severity == Sql_condition::SL_ERROR)
severity= Sql_condition::SL_WARNING;
(void) thd->raise_condition(code, NULL, severity, message_text);
DBUG_VOID_RETURN;
}
/**
Push the warning to error list if there is still room in the list
@param thd Thread handle
@param severity Severity of warning (note, warning)
@param code Error number
@param msg Clear error message
*/
void push_warning_printf(THD *thd, Sql_condition::enum_severity_level severity,
uint code, const char *format, ...)
{
va_list args;
char warning[MYSQL_ERRMSG_SIZE];
DBUG_ENTER("push_warning_printf");
DBUG_PRINT("enter",("warning: %u", code));
assert(code != 0);
assert(format != NULL);
va_start(args,format);
my_vsnprintf_ex(&my_charset_utf8_general_ci, warning,
sizeof(warning), format, args);
va_end(args);
push_warning(thd, severity, code, warning);
DBUG_VOID_RETURN;
}
void push_deprecated_warn(THD *thd, const char *old_syntax,
const char *new_syntax)
{
if (thd != NULL)
push_warning_printf(thd, Sql_condition::SL_WARNING,
ER_WARN_DEPRECATED_SYNTAX,
ER_THD(thd, ER_WARN_DEPRECATED_SYNTAX),
old_syntax, new_syntax);
else
sql_print_warning("The syntax '%s' is deprecated and will be removed "
"in a future release. Please use %s instead.",
old_syntax, new_syntax);
}
void push_deprecated_warn_no_replacement(THD *thd, const char *old_syntax)
{
if (thd != NULL)
push_warning_printf(thd, Sql_condition::SL_WARNING,
ER_WARN_DEPRECATED_SYNTAX_NO_REPLACEMENT,
ER_THD(thd, ER_WARN_DEPRECATED_SYNTAX_NO_REPLACEMENT),
old_syntax);
else
sql_print_warning("The syntax '%s' is deprecated and will be removed "
"in a future release", old_syntax);
}
const LEX_STRING warning_level_names[]=
{
{ C_STRING_WITH_LEN("Note") },
{ C_STRING_WITH_LEN("Warning") },
{ C_STRING_WITH_LEN("Error") },
{ C_STRING_WITH_LEN("?") }
};
/**
Send all notes, errors or warnings to the client in a result set. The function
takes into account the current LIMIT.
@param thd Thread handler
@param levels_to_show Bitmap for which levels to show
@return error status.
*/
bool mysqld_show_warnings(THD *thd, ulong levels_to_show)
{
List<Item> field_list;
Diagnostics_area new_stmt_da(false);
Diagnostics_area *first_da= thd->get_stmt_da();
bool rc= false;
DBUG_ENTER("mysqld_show_warnings");
/* Push new Diagnostics Area, execute statement and pop. */
thd->push_diagnostics_area(&new_stmt_da);
/*
Reset the condition counter.
This statement has just started and has not generated any conditions
on its own. However the condition counter will have been updated by
push_diagnostics_area() to match the number of conditions present in
first_da. It is therefore necessary to reset so we don't inherit the
old counter value.
*/
new_stmt_da.reset_statement_cond_count();
field_list.push_back(new Item_empty_string("Level", 7));
field_list.push_back(new Item_return_int("Code",4, MYSQL_TYPE_LONG));
field_list.push_back(new Item_empty_string("Message",MYSQL_ERRMSG_SIZE));
if (thd->send_result_metadata(&field_list,
Protocol::SEND_NUM_ROWS | Protocol::SEND_EOF))
rc= true;
const Sql_condition *err;
SELECT_LEX *sel= thd->lex->select_lex;
SELECT_LEX_UNIT *unit= thd->lex->unit;
ulonglong idx= 0;
Protocol *protocol=thd->get_protocol();
unit->set_limit(sel);
Diagnostics_area::Sql_condition_iterator it= first_da->sql_conditions();
while (!rc && (err= it++))
{
/* Skip levels that the user is not interested in */
if (!(levels_to_show & ((ulong) 1 << err->severity())))
continue;
if (++idx <= unit->offset_limit_cnt)
continue;
if (idx > unit->select_limit_cnt)
break;
protocol->start_row();
protocol->store(warning_level_names[err->severity()].str,
warning_level_names[err->severity()].length,
system_charset_info);
protocol->store((uint32) err->mysql_errno());
protocol->store(err->message_text(),
err->message_octet_length(),
system_charset_info);
if (protocol->end_row())
rc= true;
}
thd->pop_diagnostics_area();
if (!rc)
{
my_eof(thd);
DBUG_RETURN(false);
}
/* Statement failed, retrieve the error information for propagation. */
uint sql_errno= new_stmt_da.mysql_errno();
const char *message= new_stmt_da.message_text();
const char *sqlstate= new_stmt_da.returned_sqlstate();
/* In case of a fatal error, set it into the original DA.*/
if (thd->is_fatal_error)
{
first_da->set_error_status(sql_errno, message, sqlstate);
DBUG_RETURN(true);
}
/* Otherwise, just append the new error as a exception condition. */
first_da->push_warning(thd, sql_errno, sqlstate,
Sql_condition::SL_ERROR, message);
DBUG_RETURN(true);
}
ErrConvString::ErrConvString(double nr)
{
// enough to print '-[digits].E+###'
assert(sizeof(err_buffer) > DBL_DIG + 8);
buf_length= my_gcvt(nr, MY_GCVT_ARG_DOUBLE,
static_cast<int>(sizeof(err_buffer)) - 1,
err_buffer, NULL);
}
ErrConvString::ErrConvString(const my_decimal *nr)
{
int len= sizeof(err_buffer);
(void) decimal2string((decimal_t *) nr, err_buffer, &len, 0, 0, 0);
buf_length= (uint) len;
}
ErrConvString::ErrConvString(const struct st_mysql_time *ltime, uint dec)
{
buf_length= my_TIME_to_str(ltime, err_buffer,
MY_MIN(dec, DATETIME_MAX_DECIMALS));
}
/**
Convert value for dispatch to error message(see WL#751).
@param to buffer for converted string, 0-terminated
@param to_length size of the buffer
@param from string which should be converted
@param from_length string length
@param from_cs charset from convert
@retval
number of bytes written to "to"
*/
size_t err_conv(char *buff, size_t to_length, const char *from,
size_t from_length, const CHARSET_INFO *from_cs)
{
char *to= buff;
const char *from_start= from;
size_t res;
assert(to_length > 0);
to_length--;
if (from_cs == &my_charset_bin)
{
uchar char_code;
res= 0;
while (1)
{
if ((uint)(from - from_start) >= from_length ||
res >= to_length)
{
*to= 0;
break;
}
char_code= ((uchar) *from);
if (char_code >= 0x20 && char_code <= 0x7E)
{
*to++= char_code;
from++;
res++;
}
else
{
if (res + 4 >= to_length)
{
*to= 0;
break;
}
res+= my_snprintf(to, 5, "\\x%02X", (uint) char_code);
to+=4;
from++;
}
}
}
else
{
uint errors;
res= copy_and_convert(to, to_length, system_charset_info,
from, from_length, from_cs, &errors);
to+= res;
*to= 0;
}
return to - buff;
}
/**
Convert string for dispatch to client(see WL#751).
@param to buffer to convert
@param to_length buffer length
@param to_cs chraset to convert
@param from string from convert
@param from_length string length
@param from_cs charset from convert
@param errors count of errors during convertion
@retval
length of converted string
*/
size_t convert_error_message(char *to, size_t to_length,
const CHARSET_INFO *to_cs,
const char *from, size_t from_length,
const CHARSET_INFO *from_cs, uint *errors)
{
int cnvres;
my_wc_t wc;
const uchar *from_end= (const uchar*) from+from_length;
char *to_start= to;
uchar *to_end;
my_charset_conv_mb_wc mb_wc= from_cs->cset->mb_wc;
my_charset_conv_wc_mb wc_mb;
uint error_count= 0;
size_t length;
assert(to_length > 0);
/* Make room for the null terminator. */
to_length--;
to_end= (uchar*) (to + to_length);
if (!to_cs || from_cs == to_cs || to_cs == &my_charset_bin)
{
length= MY_MIN(to_length, from_length);
memmove(to, from, length);
to[length]= 0;
return length;
}
wc_mb= to_cs->cset->wc_mb;
while (1)
{
if ((cnvres= (*mb_wc)(from_cs, &wc, (uchar*) from, from_end)) > 0)
{
if (!wc)
break;
from+= cnvres;
}
else if (cnvres == MY_CS_ILSEQ)
{
wc= (ulong) (uchar) *from;
from+=1;
}
else
break;
if ((cnvres= (*wc_mb)(to_cs, wc, (uchar*) to, to_end)) > 0)
to+= cnvres;
else if (cnvres == MY_CS_ILUNI)
{
length= (wc <= 0xFFFF) ? 6/* '\1234' format*/ : 9 /* '\+123456' format*/;
if ((uchar*)(to + length) >= to_end)
break;
cnvres= my_snprintf(to, 9,
(wc <= 0xFFFF) ? "\\%04X" : "\\+%06X", (uint) wc);
to+= cnvres;
}
else
break;
}
*to= 0;
*errors= error_count;
return (uint32) (to - to_start);
}
/**
Sanity check for SQLSTATEs. The function does not check if it's really an
existing SQL-state (there are just too many), it just checks string length and
looks for bad characters.
@param sqlstate the condition SQLSTATE.
@retval true if it's ok.
@retval false if it's bad.
*/
bool is_sqlstate_valid(const LEX_STRING *sqlstate)
{
if (sqlstate->length != 5)
return false;
for (int i= 0 ; i < 5 ; ++i)
{
char c = sqlstate->str[i];
if ((c < '0' || '9' < c) &&
(c < 'A' || 'Z' < c))
return false;
}
return true;
}
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