Updated on 2024-12-19 GMT+08:00

Overview

Objective

This document outlines the rules for design and development that need to be followed when developing the GaussDB(DWS) database. The objective is to enhance development efficiency and ensure the continuity and stability of the service.

Application Scope

These specifications apply to all GaussDB(DWS) self-development scenarios, including designing and developing applications and database services.

Terms

Rule: a mandatory requirement that must be followed during database design and development.

Suggestion: an option that you need to consider for the design and development process.

Description: a detailed explanation of a rule or suggestion.

Overall Development and Design Specifications

The table below provides a list of development and design specifications that must be followed during GaussDB(DWS) development. You can click the links to access the corresponding rules for more details.

Table 1 GaussDB(DWS) development and design specifications

No.

Category

Rule/Suggestion

1

Connection management regulations

-

Rule 1.1: Configuring Load Balancing for GaussDB(DWS) Clusters

2

Rule 1.2: Ending the Database Connection After Necessary Operations (Except in Connection Pool Scenarios)

3

Rule 1.3: Ensuring a Started Transaction Is Committed or Rolled Back

4

Rule 1.4: Ensuring the Idle Timeout Duration Is Shorter Than SESSION_TIMEOUT Value When Connection Pool Is Used for Applications

5

Rule 1.5: Restoring Parameters to Default Values in Connections Before Returning Them to the Pool

6

Rule 1.6: Manually Clearing Temporary Tables Created with a Connection Before Returning it to the Pool

7

Object design specifications

DATABASE object design

Rule 2.1: Avoiding Direct Usage of Built-in Databases Such As postgres and gaussdb

8

Rule 2.2: Selecting the Suitable Database Code During Database Creation

9

Rule 2.3: Choosing the Right Database Type for Compatibility with the Database to Be Created

10

Suggestion 2.4: Storing Objects with Associated Calculations in the Same Database

11

USER object design

Rule 2.5: Following the Least Privilege Principle and Avoiding Running Services Using Users with Special Permissions

12

Rule 2.6: Avoiding the Use of a Single Database Account for All Services

13

SCHEMA object design

Suggestion 2.7: Avoiding the Creation of Objects Under Other Users' Private Schemas

14

TABLESPACE object design

Rule 2.8 Avoiding Tablespace Customization

15

TABLE object design (prioritized)

Rule 2.9: Selecting the Optimal Distribution Method and Columns During Table Creation

16

Rule 2.10 Selecting an Optimal Storage Type During Table Creation

17

Rule 2.11 Selecting an Optimal Partitioning Policy During Table Creation

18

Suggestion 2.12: Designing Table Columns for Fast and Accurate Queries

19

Suggestion 2.13: Avoiding the Usage of Auto-increment Columns or Data Types

20

INDEX object design (prioritized)

Rule 2.14: Creating Necessary Indexes and Selecting Optimal Columns and Sequences for Them

21

Suggestion 2.15: Optimizing Performance by Choosing the Right Index Type and Avoiding Indexes for Column-Store Tables

22

VIEW object design

Suggestion 2.16: Limiting View Nesting to Three Layers

23

SQL development specifications

DDL operation specifications

Suggestion 3.1: Avoiding Performing DDL Operations (Except CREATE) During Peak Hours or in Long Transactions

24

Rule 3.2: Specifying the Scope of Objects to Be Deleted When Using DROP

25

INSERT operation specifications

Rule 3.3: Replacing INSERT with COPY for Efficient Multi-Value Batch Insertion

26

Suggestion 3.4: Avoiding Performing Real-time INSERT Operations on Common Column-store Tables

27

UPDATE/DELETE operation specifications

Suggestion 3.5: Preventing Simultaneous Updates or Deletions of the Same Row in a Row-store Table

28

Suggestion 3.6: Avoiding Frequent or Simultaneous UPDATE and DELETE Operations on Column-store Tables

29

SELECT operation specifications

Rule 3.7: Avoiding Executing SQL Statements That Do Not Support Pushdown

30

Rule 3.8: Specifying Association Conditions when Multiple Tables Are Associated

31

Rule 3.9: Ensuring Consistency of Data Types in Associated Fields across Multiple Tables

32

Suggestion 3.10: Avoiding Function Calculation on Association and Filter Condition Fields

33

Suggestion 3.11: Performing Pressure Tests and Concurrency Control for Resource-intensive SQL Statements

34

Rule 3.12: Avoiding Excessive COUNT Operations on Large Row-store Tables

35

Suggestion 3.13: Avoid Getting Large Result Sets (Except for Data Exports)

36

Suggestion 3.14: Avoiding the Usage of SELECT * for Queries

37

Suggestion 3.15: Using WITH RECURSIVE with Defined Termination Condition for Recursion

38

Suggestion 3.16: Setting Schema Prefix for Table and Function Access

39

Suggestion 3.17: Identifying an SQL Statement with a Unique SQL Comment

40

Stored procedure development specifications

-

Suggestion 4.1: Simplifying Stored Procedures and Avoiding Nesting

41

Rule 4.2: Avoiding Non-CREATE DDL Operations in Stored Procedures