Python. Automating creation backups of MySQL database.
This script automates creating backups of MySQL databases, restoring them, and managing database and user creation on the destination MySQL server.
import subprocess
import datetime
import sys
import os
def check_and_create_database(host, port, username, password, database):
# Command to check if the database exists
check_database_command = f"mysql -sN --host={host} --port={port} --user={username} --password={password} -e \"SELECT EXISTS(SELECT 1 FROM INFORMATION_SCHEMA.SCHEMATA WHERE SCHEMA_NAME = '{database}')\" 2>/dev/null"
# Execute the command
output = subprocess.check_output(check_database_command, shell=True)
# If the output contains b'1', the database exists
if b'1' in output:
subprocess.run(check_database_command, shell=True, check=True)
print(f"Database '{database}' already exists.")
sys.exit(1)
else:
# If the command fails, the database does not exist
print(f"Database '{database}' does not exist. Creating...")
# Command to create the database
create_database_command = f"mysql --host={host} --port={port} --user={username} --password={password} -e 'CREATE DATABASE {database}' 2>/dev/null"
subprocess.run(create_database_command, shell=True)
def check_and_create_user(host, port, username, password, database, new_username, new_password):
# Command to check if the user exists
check_user_command = f"mysql -sN --host={host} --port={port} --user={username} --password={password} -e \"SELECT EXISTS(SELECT 1 FROM mysql.user WHERE user = '{new_username}')\" 2>/dev/null"
# Execute the command
output = subprocess.check_output(check_user_command, shell=True)
# If the output contains b'1', the user exists
if b'1' in output:
print(f"User '{new_username}' already exists.")
sys.exit(1)
else:
# The user does not exist, create it
print(f"User '{new_username}' does not exist. Creating...")
# Command to create the user and grant privileges
create_user_command = f"mysql --host={host} --port={port} --user={username} --password={password} -e \"CREATE USER '{new_username}'@'%' IDENTIFIED BY '{new_password}'; GRANT ALL PRIVILEGES ON {database}.* TO '{new_username}'@'%'; FLUSH PRIVILEGES;\" 2>/dev/null"
subprocess.run(create_user_command, shell=True)
def backup_mysql_database(host, port, username, password, database, backup_path):
# Check if the backup directory exists
if not os.path.exists(backup_path):
print(f"Error: Backup directory '{backup_path}' does not exist.")
sys.exit(1)
# Create a filename for the backup with the current date and time
timestamp = datetime.datetime.now().strftime("%Y-%m-%d_%H-%M-%S")
backup_file = f"{backup_path}/{database}_{timestamp}.sql"
# Command to create a database backup using mysqldump
dump_command = f"mysqldump --no-tablespaces --host={host} --port={port} --user={username} --password={password} {database} > {backup_file} 2>/dev/null"
# Execute the mysqldump command
subprocess.run(dump_command, shell=True)
return backup_file
def restore_mysql_database(host, port, username, password, database, backup_file):
# Command to restore a database from a backup using mysql
restore_command = f"mysql --host={host} --port={port} --user={username} --password={password} {database} < {backup_file} 2>/dev/null"
# Execute the mysql command
subprocess.run(restore_command, shell=True)
def main():
# Connection parameters to the source MySQL database
source_host = "127.0.0.1"
source_port = "3309"
source_username = "my_user"
source_password = "my_password"
source_database = "my_database"
# Connection parameters to the target MySQL database
target_host = "127.0.0.1"
target_port = "3309"
new_username = "new_username"
new_password = "new_password"
target_database = "my_database_two"
target_username = "root"
target_password = "root_password"
# Path to save the backup locally
backup_path = "my_dbs_dumps"
# Check if source_database is different from target_database
if source_database == target_database:
print("Error: Source database should be different from target database.")
sys.exit(1)
# Check and create the target database if it does not exist
check_and_create_database(target_host, target_port, target_username, target_password, target_database)
# Check and create the target user if it does not exist
check_and_create_user(target_host, target_port, target_username, target_password, target_database, new_username, new_password)
# Create a backup of the MySQL database
backup_file = backup_mysql_database(source_host, source_port, source_username, source_password, source_database, backup_path)
print(f"Database backup created: {backup_file}")
# Restore the database on the target server from the backup
restore_mysql_database(target_host, target_port, target_username, target_password, target_database, backup_file)
print("Database backup restored on the target server.")
if __name__ == "__main__":
main()
check_and_create_database:
This function checks if a database exists on a MySQL server. If the database does not exist, it creates it. It takes parameters such as the host, port, username, password, and database name to check or create.
check_and_create_user:
Like the database function, this function checks if a user exists on the MySQL server. If the user does not exist, it creates the user and grants privileges to a specific database. It also takes parameters such as the host, port, username, password, the name of the database, the new username, and the new password.
backup_mysql_database:
This function performs a backup of a MySQL database using mysqldump. It takes parameters such as the host, port, username, password, database name, and the path to save the backup file.
restore_mysql_database:
This function restores a MySQL database from a backup file. It takes parameters such as the host, port, username, password, database name, and the path to the backup file.
main:
This is the main function of the script. It sets up parameters for the source and target MySQL databases, including connection details, database names, and backup paths. It then performs checks to ensure that the source and target databases are different, creates the target database and user if they don’t exist, creates a backup of the source database, and finally restores the backup to the target database.
Additionally, the script uses the subprocess module to execute shell commands for MySQL operations (mysql, mysqldump) and performs error handling and output redirection (2>/dev/null) to suppress unnecessary output.
If you’re working with MySQL databases and want to create automation, this code will help you.
This code represents a good starting template for creating automation scripts for managing MySQL databases.
dmi@dmi-laptop:~/my_python$ python3 mysql_backup_restore.py Database 'my_database_two' does not exist. Creating... User 'new_username' does not exist. Creating... Database backup created: my_dbs_dumps/my_database_2024-05-13_20-05-24.sql Database backup restored on the target server. dmi@dmi-laptop:~/my_python$
ask_dima@yahoo.com
The above is the detailed content of Python. Automating creation backups of MySQL database.. For more information, please follow other related articles on the PHP Chinese website!
Hot AI Tools
Undresser.AI Undress
AI-powered app for creating realistic nude photos
AI Clothes Remover
Online AI tool for removing clothes from photos.
Undress AI Tool
Undress images for free
Clothoff.io
AI clothes remover
Video Face Swap
Swap faces in any video effortlessly with our completely free AI face swap tool!
Hot Article
Hot Tools
Notepad++7.3.1
Easy-to-use and free code editor
SublimeText3 Chinese version
Chinese version, very easy to use
Zend Studio 13.0.1
Powerful PHP integrated development environment
Dreamweaver CS6
Visual web development tools
SublimeText3 Mac version
God-level code editing software (SublimeText3)
Hot Topics
1664
14
1422
52
1316
25
1267
29
1239
24
When might a full table scan be faster than using an index in MySQL?
Apr 09, 2025 am 12:05 AM
Full table scanning may be faster in MySQL than using indexes. Specific cases include: 1) the data volume is small; 2) when the query returns a large amount of data; 3) when the index column is not highly selective; 4) when the complex query. By analyzing query plans, optimizing indexes, avoiding over-index and regularly maintaining tables, you can make the best choices in practical applications.
MySQL: Simple Concepts for Easy Learning
Apr 10, 2025 am 09:29 AM
MySQL is an open source relational database management system. 1) Create database and tables: Use the CREATEDATABASE and CREATETABLE commands. 2) Basic operations: INSERT, UPDATE, DELETE and SELECT. 3) Advanced operations: JOIN, subquery and transaction processing. 4) Debugging skills: Check syntax, data type and permissions. 5) Optimization suggestions: Use indexes, avoid SELECT* and use transactions.
MySQL: The Ease of Data Management for Beginners
Apr 09, 2025 am 12:07 AM
MySQL is suitable for beginners because it is simple to install, powerful and easy to manage data. 1. Simple installation and configuration, suitable for a variety of operating systems. 2. Support basic operations such as creating databases and tables, inserting, querying, updating and deleting data. 3. Provide advanced functions such as JOIN operations and subqueries. 4. Performance can be improved through indexing, query optimization and table partitioning. 5. Support backup, recovery and security measures to ensure data security and consistency.
MySQL's Role: Databases in Web Applications
Apr 17, 2025 am 12:23 AM
The main role of MySQL in web applications is to store and manage data. 1.MySQL efficiently processes user information, product catalogs, transaction records and other data. 2. Through SQL query, developers can extract information from the database to generate dynamic content. 3.MySQL works based on the client-server model to ensure acceptable query speed.
MySQL: An Introduction to the World's Most Popular Database
Apr 12, 2025 am 12:18 AM
MySQL is an open source relational database management system, mainly used to store and retrieve data quickly and reliably. Its working principle includes client requests, query resolution, execution of queries and return results. Examples of usage include creating tables, inserting and querying data, and advanced features such as JOIN operations. Common errors involve SQL syntax, data types, and permissions, and optimization suggestions include the use of indexes, optimized queries, and partitioning of tables.
Explain the role of InnoDB redo logs and undo logs.
Apr 15, 2025 am 12:16 AM
InnoDB uses redologs and undologs to ensure data consistency and reliability. 1.redologs record data page modification to ensure crash recovery and transaction persistence. 2.undologs records the original data value and supports transaction rollback and MVCC.
MySQL's Place: Databases and Programming
Apr 13, 2025 am 12:18 AM
MySQL's position in databases and programming is very important. It is an open source relational database management system that is widely used in various application scenarios. 1) MySQL provides efficient data storage, organization and retrieval functions, supporting Web, mobile and enterprise-level systems. 2) It uses a client-server architecture, supports multiple storage engines and index optimization. 3) Basic usages include creating tables and inserting data, and advanced usages involve multi-table JOINs and complex queries. 4) Frequently asked questions such as SQL syntax errors and performance issues can be debugged through the EXPLAIN command and slow query log. 5) Performance optimization methods include rational use of indexes, optimized query and use of caches. Best practices include using transactions and PreparedStatemen
Why Use MySQL? Benefits and Advantages
Apr 12, 2025 am 12:17 AM
MySQL is chosen for its performance, reliability, ease of use, and community support. 1.MySQL provides efficient data storage and retrieval functions, supporting multiple data types and advanced query operations. 2. Adopt client-server architecture and multiple storage engines to support transaction and query optimization. 3. Easy to use, supports a variety of operating systems and programming languages. 4. Have strong community support and provide rich resources and solutions.
