SQL statements produce diagnostic information that populates the
diagnostics area. Standard SQL has a diagnostics area stack,
containing a diagnostics area for each nested execution context.
Standard SQL also supports
GET STACKED
DIAGNOSTICS
syntax for referring to the second
diagnostics area during condition handler execution. MySQL
supports the STACKED
keyword as of MySQL 5.7.
Before that, MySQL does not support STACKED
;
there is a single diagnostics area containing information from
the most recent statement that wrote to it.
The following discussion describes the structure of the diagnostics area in MySQL, the information items recognized by MySQL, how statements clear and set the diagnostics area, and how diagnostics areas are pushed to and popped from the stack.
The diagnostics area contains two kinds of information:
Statement information, such as the number of conditions that occurred or the affected-rows count.
Condition information, such as the error code and message. If a statement raises multiple conditions, this part of the diagnostics area has a condition area for each one. If a statement raises no conditions, this part of the diagnostics area is empty.
For a statement that produces three conditions, the diagnostics area contains statement and condition information like this:
Statement information:
row count
... other statement information items ...
Condition area list:
Condition area 1:
error code for condition 1
error message for condition 1
... other condition information items ...
Condition area 2:
error code for condition 2:
error message for condition 2
... other condition information items ...
Condition area 3:
error code for condition 3
error message for condition 3
... other condition information items ...
The diagnostics area contains statement and condition
information items. Numeric items are integers. The character
set for character items is UTF-8. No item can be
NULL
. If a statement or condition item is
not set by a statement that populates the diagnostics area,
its value is 0 or the empty string, depending on the item data
type.
The statement information part of the diagnostics area contains these items:
NUMBER
: An integer indicating the number of condition areas that have information.ROW_COUNT
: An integer indicating the number of rows affected by the statement.ROW_COUNT
has the same value as theROW_COUNT()
function (see Section 12.15, “Information Functions”).
The condition information part of the diagnostics area
contains a condition area for each condition. Condition areas
are numbered from 1 to the value of the
NUMBER
statement condition item. If
NUMBER
is 0, there are no condition areas.
Each condition area contains the items in the following list.
All items are standard SQL except
MYSQL_ERRNO
, which is a MySQL extension.
The definitions apply for conditions generated other than by a
signal (that is, by a SIGNAL
or
RESIGNAL
statement). For
nonsignal conditions, MySQL populates only those condition
items not described as always empty. The effects of signals on
the condition area are described later.
CLASS_ORIGIN
: A string containing the class of theRETURNED_SQLSTATE
value. If theRETURNED_SQLSTATE
value begins with a class value defined in SQL standards document ISO 9075-2 (section 24.1, SQLSTATE),CLASS_ORIGIN
is'ISO 9075'
. Otherwise,CLASS_ORIGIN
is'MySQL'
.SUBCLASS_ORIGIN
: A string containing the subclass of theRETURNED_SQLSTATE
value. IfCLASS_ORIGIN
is'ISO 9075'
orRETURNED_SQLSTATE
ends with'000'
,SUBCLASS_ORIGIN
is'ISO 9075'
. Otherwise,SUBCLASS_ORIGIN
is'MySQL'
.RETURNED_SQLSTATE
: A string that indicates theSQLSTATE
value for the condition.MESSAGE_TEXT
: A string that indicates the error message for the condition.MYSQL_ERRNO
: An integer that indicates the MySQL error code for the condition.CONSTRAINT_CATALOG
,CONSTRAINT_SCHEMA
,CONSTRAINT_NAME
: Strings that indicate the catalog, schema, and name for a violated constraint. They are always empty.CATALOG_NAME
,SCHEMA_NAME
,TABLE_NAME
,COLUMN_NAME
: Strings that indicate the catalog, schema, table, and column related to the condition. They are always empty.CURSOR_NAME
: A string that indicates the cursor name. This is always empty.
For the RETURNED_SQLSTATE
,
MESSAGE_TEXT
, and
MYSQL_ERRNO
values for particular errors,
see Server Error Message Reference.
If a SIGNAL
(or
RESIGNAL
) statement populates
the diagnostics area, its SET
clause can
assign to any condition information item except
RETURNED_SQLSTATE
any value that is legal
for the item data type. SIGNAL
also sets the RETURNED_SQLSTATE
value, but
not directly in its SET
clause. That value
comes from the SIGNAL
statement
SQLSTATE
argument.
SIGNAL
also sets statement
information items. It sets NUMBER
to 1. It
sets ROW_COUNT
to −1 for errors and 0
otherwise.
Nondiagnostic SQL statements populate the diagnostics area
automatically, and its contents can be set explicitly with the
SIGNAL
and
RESIGNAL
statements. The
diagnostics area can be examined with GET
DIAGNOSTICS
to extract specific items, or with
SHOW WARNINGS
or
SHOW ERRORS
to see conditions
or errors.
SQL statements clear and set the diagnostics area as follows:
When the server starts executing a statement after parsing it, it clears the diagnostics area for nondiagnostic statements. Diagnostic statements do not clear the diagnostics area. These statements are diagnostic:
If a statement raises a condition, the diagnostics area is cleared of conditions that belong to earlier statements. The exception is that conditions raised by
GET DIAGNOSTICS
andRESIGNAL
are added to the diagnostics area without clearing it.
Thus, even a statement that does not normally clear the diagnostics area when it begins executing clears it if the statement raises a condition.
The following example shows the effect of various statements
on the diagnostics area, using SHOW
WARNINGS
to display information about conditions
stored there.
This DROP TABLE
statement
clears the diagnostics area and populates it when the
condition occurs:
mysql> DROP TABLE IF EXISTS test.no_such_table;
Query OK, 0 rows affected, 1 warning (0.01 sec)
mysql> SHOW WARNINGS;
+-------+------+------------------------------------+
| Level | Code | Message |
+-------+------+------------------------------------+
| Note | 1051 | Unknown table 'test.no_such_table' |
+-------+------+------------------------------------+
1 row in set (0.00 sec)
This
SET
statement generates an error, so it clears and populates the
diagnostics area:
mysql> SET @x = @@x;
ERROR 1193 (HY000): Unknown system variable 'x'
mysql> SHOW WARNINGS;
+-------+------+-----------------------------+
| Level | Code | Message |
+-------+------+-----------------------------+
| Error | 1193 | Unknown system variable 'x' |
+-------+------+-----------------------------+
1 row in set (0.00 sec)
The previous
SET
statement produced a single condition, so 1 is the only valid
condition number for GET
DIAGNOSTICS
at this point. The following statement
uses a condition number of 2, which produces a warning that is
added to the diagnostics area without clearing it:
mysql> GET DIAGNOSTICS CONDITION 2 @p = MESSAGE_TEXT;
Query OK, 0 rows affected, 1 warning (0.00 sec)
mysql> SHOW WARNINGS;
+-------+------+------------------------------+
| Level | Code | Message |
+-------+------+------------------------------+
| Error | 1193 | Unknown system variable 'xx' |
| Error | 1753 | Invalid condition number |
+-------+------+------------------------------+
2 rows in set (0.00 sec)
Now there are two conditions in the diagnostics area, so the
same GET DIAGNOSTICS
statement
succeeds:
mysql> GET DIAGNOSTICS CONDITION 2 @p = MESSAGE_TEXT;
Query OK, 0 rows affected (0.00 sec)
mysql> SELECT @p;
+--------------------------+
| @p |
+--------------------------+
| Invalid condition number |
+--------------------------+
1 row in set (0.01 sec)
When a push to the diagnostics area stack occurs, the first (current) diagnostics area becomes the second (stacked) diagnostics area and a new current diagnostics area is created as a copy of it. Diagnostics areas are pushed to and popped from the stack under the following circumstances:
Execution of a stored program
A push occurs before the program executes and a pop occurs afterward. If the stored program ends while handlers are executing, there can be more than one diagnostics area to pop; this occurs due to an exception for which there are no appropriate handlers or due to
RETURN
in the handler.Any warning or error conditions in the popped diagnostics areas then are added to the current diagnostics area, except that, for triggers, only errors are added. When the stored program ends, the caller sees these conditions in its current diagonstics area.
Execution of a condition handler within a stored program
When a push occurs as a result of condition handler activation, the stacked diagnostics area is the area that was current within the stored program prior to the push. The new now-current diagnostics area is the handler's current diagnostics area.
GET [CURRENT] DIAGNOSTICS
andGET STACKED DIAGNOSTICS
can be used within the handler to access the contents of the current (handler) and stacked (stored program) diagnostics areas. Initially, they return the same result, but statements executing within the handler modify the current diagnostics area, clearing and setting its contents according to the normal rules (see How the Diagnostics Area is Cleared and Populated). The stacked diagnostics area cannot be modified by statements executing within the handler exceptRESIGNAL
.If the handler executes successfully, the current (handler) diagnostics area is popped and the stacked (stored program) diagnostics area again becomes the current diagnostics area. Conditions added to the handler diagnostics area during handler execution are added to the current diagnostics area.
Execution of
RESIGNAL
The
RESIGNAL
statement passes on the error condition information that is available during execution of a condition handler within a compound statement inside a stored program.RESIGNAL
may change some or all information before passing it on, modifying the diagnostics stack as described in Section 13.6.7.4, “RESIGNAL Statement”.
Certain system variables control or are related to some aspects of the diagnostics area:
max_error_count
controls the number of condition areas in the diagnostics area. If more conditions than this occur, MySQL silently discards information for the excess conditions. (Conditions added byRESIGNAL
are always added, with older conditions being discarded as necessary to make room.)warning_count
indicates the number of conditions that occurred. This includes errors, warnings, and notes. Normally,NUMBER
andwarning_count
are the same. However, as the number of conditions generated exceedsmax_error_count
, the value ofwarning_count
continues to rise whereasNUMBER
remains capped atmax_error_count
because no additional conditions are stored in the diagnostics area.error_count
indicates the number of errors that occurred. This value includes “not found” and exception conditions, but excludes warnings and notes. Likewarning_count
, its value can exceedmax_error_count
.If the
sql_notes
system variable is set to 0, notes are not stored and do not incrementwarning_count
.
Example: If max_error_count
is 10, the diagnostics area can contain a maximum of 10
condition areas. Suppose that a statement raises 20
conditions, 12 of which are errors. In that case, the
diagnostics area contains the first 10 conditions,
NUMBER
is 10,
warning_count
is 20, and
error_count
is 12.
Changes to the value of
max_error_count
have no
effect until the next attempt to modify the diagnostics area.
If the diagnostics area contains 10 condition areas and
max_error_count
is set to 5,
that has no immediate effect on the size or content of the
diagnostics area.