This analyzer is the official successor to the "SQL Script" extension. If you have previously used "SQL Script" extension, see the special note.
- Description
- Vendor compatibility matrix
- Function Point, Quality and Sizing support
- CAST AIP compatibility
- Supported DBMS servers used for CAST AIP schemas
- Prerequisites
- Download and installation instructions
- Packaging, delivering and analyzing your source code
- What results can you expect?
- Limitations
Target audience:
Users of the extension providing source code analysis support for SQL files.
Summary: This document provides basic information about the extension that provides source code analysis support for SQL files.
What's new:
- Added 11 New Quality Rules extending CISQ coverage
- Minor bug fixes
Description
The new SQL Analyzer (successor to the "SQL Script" extension) provides support for database technologies using ANSI SQL-92/99 language. This extension uses the Universal Analyzer framework and is intended to analyse DDL, DML and SQL exports for a large variety of SQL variants:
- This extension provides source code analysis support for DDL and DML *.sql files using an over language of the various sql variants.
- This extension also accepts src and uaxDirectory files. Check here for more details about sqltablesize files.
In what situation should you install this extension?
- If you need to analyze PostgreSQL, MySQL, MariaDB and SQLite
- If your application contains schemas from database vendors not supported "out of the box" by CAST AIP (see http://doc.castsoftware.com, Supported Technologies for more information) but, which are compliant with ANSI SQL-92/99
- When you do not have access to the online dabatase to perform an extraction for use with CAST AIP and have instead been provided with DDL scripts
Vendor compatibility matrix
| RDBMS Vendor | Official Support | Compatible | Notes |
|---|---|---|---|
 |  | | |
 | | | |
 | | | |
 | | | |
 |  | | CAST AIP provides "out of the box" analyzers for all these vendors. |
 | | | |
 | | | |
 | | |
Function Point, Quality and Sizing support
- Function Points (transactions): a green tick indicates that OMG Function Point counting and Transaction Risk Index are supported
- Quality and Sizing: a green tick indicates that CAST can measure size and that a minimum set of Quality Rules exist
| Function Points (transactions) | Quality and Sizing |
|---|---|
| |
CAST AIP release | Supported |
|---|---|
| 8.2.x | |
| 8.1.x | |
| 8.0.x | |
| 7.3.x | |
Supported DBMS servers used for CAST AIP schemas
This extension is compatible with the following DBMS servers used to host CAST AIP schemas
| CAST AIP release | CSS2 | Oracle | Microsoft |
|---|---|---|---|
| All supported releases | | | |
Prerequisites
| An installation of any compatible release of CAST AIP (see table above) |
Download and installation instructions
Please see:
- http://doc.castsoftware.com/display/EXTEND/Download+an+extension
- http://doc.castsoftware.com/display/EXTEND/Install+an+extension
The latest release status of this extension can be seen when downloading it from the CAST Extend server.
Upgrade from the SQL Script extension
If you have previously used the "SQL Script" extension (com.castsoftware.sqlscript) on existing schemas, you should proceed as following :
- In CAST Server Manager use the Manage Extensions option on the CAST AIP schemas in which the "SQL Script" extension is installed
- Select Analyzer for SQL files and choose deactivate to remove the existing extension. No further actions are required.
Packaging, delivering and analyzing your source code
Please see: SQL Analyzer - 1.x - Packaging, delivering and analyzing your source code
What results can you expect?
Once the analysis/snapshot generation has completed, you can view the results in the normal manner (for example via CAST Enlighten):
You can also use the CAST Management Studio option View Analysis Unit Content to see the objects that have been created following the analysis:
Objects
The following objects are displayed in CAST Enlighten:
| Icon | Description |
|---|---|
 | Schema |
 | Table |
 | View |
 | Table Column |
 | Index |
 | Foreign Key |
 | Unique Constraint |
 | Procedure |
 | Function |
 | Trigger |
 | Package |
| Type |
 | Event |
| Synonym |
 | SQL Script |
 | DLM Script |
Note that:
- Object identity is independent from the *.sql file the object comes from.
- Object identity depends on the Analysis Unit's identity. Therefore, using a new Analysis Unit or deleting and then recreating an Analysis Unit will change the object's identity and will result in added/removed objects in the subsequent analysis results.
- Typically a table will be identified by the Analysis Unit name, schema name and table name.
- When no schema can be determined, the analyzer considers that a schema named "DEFAULT" is used. But generally, identifiers are qualified in CREATE TABLE statements.
Table deletion and renaming
DROP TABLE syntax is supported for table objects within the same file. When creating a table through CREATE TABLE tableName (colName int, ...) followed by a DROP TABLE tableName, the table will not be recorded and thus will not be displayed in CAST Enlighten. Similarly, if a table is renamed with a RENAME TABLE statement (or ALTER TABLE RENAME TO as in SQLite and PostgreSQL), this change will be reflected in CAST Enlighten. Presently we consider case-insensitive names, i.e., objects named tableName and TABLEname are considered to be the same object.
Links
Links are created for transaction and function point needs.
DDL
You can expect the following links on the DDL side within the same sql file:
- useSelect, useInsert, useUpdate, useDelete Links from Procedure / Function / Event to Table / View
- callLink from Procedure / Function / Event to Procedure / Function
- useSelect from View to Table / View used in the query of the view
- callLink from View to Function
- relyonLink from Index to the Table
- relyonLink from Index to the Column implied in the index
- referLink from:
- Table / Table Column to a Table / Table Column referenced in a Foreign Key
- Synonym to Table / View / Function / Procedure / Package aliased by Synonym
- callLink to the correct Trigger where the tables is accessed in insert/update/delete
- example a Trigger declared as BEFORE INSERT on a table, any insert to that table will call the trigger...
DML
You can expect the following links on the DML side :
- Links from SQL Script to Table provided as dependencies
- Links from client code to Table provided as dependencies
Quality Rules
| ID | Name | Critical? | Client Side Support | |
|---|---|---|---|---|
| 1 | 1634 | Avoid unreferenced Tables | ||
| 2 | 7130 | Avoid Artifacts with High Depth of Nested Subqueries | ||
| 3 | 7344 | Avoid "SELECT *" queries | ||
| 4 | 7346 | Avoid redundant indexes | ||
| 5 | 7348 | Avoid too many Indexes on one Table | ||
| 6 | 7388 | Avoid artifacts having recursive calls | ||
| 7 | 7390 | Avoid having multiple Artifacts inserting data on the same SQL Table | ||
| 8 | 7394 | Avoid having multiple Artifacts updating data on the same SQL Table | ||
| 9 | 7392 | Avoid having multiple artifacts deleting data on the same SQL table | ||
| 10 | 7404 | Avoid unreferenced views | ||
| 11 | 7424 | Avoid using SQL queries inside a loop | | |
| 12 | 7436 | Prefer UNION ALL to UNION | ||
| 13 | 7760 | Avoid triggers, functions and procedures with a very low comment/code ratio NEW | ||
| 14 | 7762 | Avoid undocumented triggers, functions and procedures | ||
| 15 | 7766 | Avoid Artifacts with High Cyclomatic Complexity NEW | ||
| 16 | 7768 | Avoid Artifacts with High Depth of Code NEW | ||
| 17 | 7772 | Avoid Artifacts with High Essential Complexity NEW | ||
| 18 | 7774 | Avoid Artifacts with High Integration Complexity NEW | ||
| 19 | 7776 | Avoid Artifacts with High Fan-In | ||
| 20 | 7778 | Avoid Artifacts with High Fan-Out | ||
| 21 | 7784 | Avoid Artifacts with lines longer than X characters | ||
| 22 | 7808 | Avoid Artifacts with SQL statement including subqueries | ||
| 23 | 7814 | Avoid Tables not using referential integrity | ||
| 24 | 7816 | Avoid using GOTO statement | ||
| 25 | 7828 | Avoid Artifacts with High RAW SQL Complexity NEW | ||
| 26 | 7842 | Avoid large Artifacts - too many Lines of Code | ||
| 27 | 7856 | Avoid Tables with more than 20 columns on an OLTP system | ||
| 28 | 7860 | Avoid unreferenced Functions | ||
| 29 | 1101000 | Never use SQL queries with a cartesian product | COBOL, PB, VB, .NET, JAVA, C/C++, PYTHON | |
30 | 1101002 | Never use SQL queries with a cartesian product on XXL Tables |
| COBOL, PB, VB, .NET, JAVA, C/C++, PYTHON |
31 | COBOL, PB, VB, .NET, JAVA, C/C++, PYTHON | |||
32 | 1101006 | Avoid non-indexed XXL SQL queries |
| COBOL, PB, VB, .NET, JAVA, C/C++, PYTHON |
33 | 1101008 | Avoid non-SARGable queries | COBOL, PB, VB, .NET, JAVA, C/C++, PYTHON | |
34 | 1101010 | Avoid NATURAL JOIN queries | COBOL, PB, VB, .NET, JAVA, C/C++, PYTHON | |
35 | 1101012 | Specify column names instead of column numbers in ORDER BY clauses | COBOL, PB, VB, .NET, JAVA, C/C++, PYTHON | |
36 | 1101014 | Avoid queries using old style join convention instead of ANSI-Standard joins | COBOL, PB, VB, .NET, JAVA, C/C++, PYTHON | |
| 37 | 1101016 | Avoid Artifacts with too many parameters | ||
| 38 | 1101018 | Avoid using the GROUP BY clause | ||
| 39 | 1101020 | Avoid using quoted identifiers | ||
| 40 | 1101022 | Avoid Tables without Primary Key | | |
| 41 | 1101024 | Avoid using dynamic SQL in SQL Artifacts | ||
| 42 | 1101026 | Always define column names when inserting values | COBOL, PB, VB, .NET, JAVA, C/C++, PYTHON | |
43 | 1101028 | Use MINUS or EXCEPT operator instead of NOT EXISTS and NOT IN subqueries | COBOL, PB, VB, .NET, JAVA, C/C++, PYTHON | |
44 | 1101030 | Avoid Artifacts with queries on too many Tables and/or Views | ||
45 | 1101032 | Avoid exists and not exists independent clauses NEW | COBOL, PB, VB, .NET, JAVA, C/C++, PYTHON | |
46 | 1101034 | DISTINCT should not be used in SQL SELECT statements NEW | COBOL, PB, VB, .NET, JAVA, C/C++, PYTHON | |
47 | 1101036 | Use ANSI standard operators in SQL WHERE clauses NEW (CLIENT ONLY) | COBOL, PB, VB, .NET, JAVA, C/C++, PYTHON | |
48 | 1101038 | Replace OR conditions testing equality on the same identifier in SQL WHERE clauses by an IN test condition NEW | COBOL, PB, VB, .NET, JAVA, C/C++, PYTHON | |
| 49 | 1101040 | Avoid empty catch blocks NEW | |
Special Note about XXL/XXS support
See SQL Analyzer - working with XXL or XXS tables for more information.
Special notes about Quality Rules on client side
Some Quality Rules are calculated on SQL queries on client side with some limitations:
- Only Java queries found by inference engine are analysed, for example :
- Queries that generate dynamic links (eligible to DLM) are not analysed
- Queries to Hibernate or JPA objects or any other ORM are not analysed
- COBOL EXEC SQL queries are analysed
- SQL queries founded in python code
Limitations
- General :
- All name resolving is considered as case insensitive :
- may produce wrong links on case insensitive platform 'playing with case' :
- 2 different tables with the same case insensitive name will be both called
- may produce wrong links on case insensitive platform 'playing with case' :
- Procedure resolution does not handle overriding :
- when calling an overridden procedure, all overrides will be called
ALTER TABLE ... ADD ... syntax is supported. All other syntaxes, like ALTER TABLE ... DELETE .. or ALTER TABLE ... DROP ... or ALTER TABLE ... MODIFY ... etc. are not supported.
- Moving a table from one database/scheme to another is not supported through RENAME TABLE schema1.tableName1 TO schema2.tableName2.
- Sequences are not taken in account and that is not a limitation but a choice because they have no effect on transactions nor quality rules*
- Oracle synonyms on packages are not taken in account.
- For the QR 7156 Avoid Too Many Copy Pasted Artifacts, total values are displayed but no detail values.
- For the QR 1101012 Specify column names instead of column numbers in ORDER BY clauses, the case when a function that returns a number or a numeric variable is used in order by is not reported to violate the rule.
- Specific to Microsoft and Sybase
- when the body of a stored procedure/function is not defined in a begin ... end block, the analysis result is not guaranteed, e.g. :
