Dirty Read (Database)
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Scapegoat (토론 | 기여)님의 2024년 12월 13일 (금) 01:26 판 (Created page with "'''Dirty Read''' is a concurrency problem in database systems that occurs when a transaction reads uncommitted changes made by another transaction. This can lead to inconsistent or incorrect data being used in the reading transaction, especially if the changes are later rolled back. ==Key Concepts== *'''Uncommitted Data:''' Data modified by a transaction that has not yet been committed to the database. *'''Concurrency Issue:''' Dirty reads are a type of Database Anomal...")
Dirty Read is a concurrency problem in database systems that occurs when a transaction reads uncommitted changes made by another transaction. This can lead to inconsistent or incorrect data being used in the reading transaction, especially if the changes are later rolled back.
Key Concepts[편집 | 원본 편집]
- Uncommitted Data: Data modified by a transaction that has not yet been committed to the database.
- Concurrency Issue: Dirty reads are a type of Database Anomaly that arise in systems with inadequate isolation levels.
- Impact on Data Integrity: Reading uncommitted data can lead to inconsistencies if the data is subsequently rolled back.
Example of Dirty Read[편집 | 원본 편집]
Consider the following scenario in a banking application:
Step | Transaction A (T1) | Transaction B (T2) | Explanation |
---|---|---|---|
1 | BEGIN TRANSACTION | - | T1 begins and updates the account balance. |
2 | UPDATE account_balance SET balance = 500 WHERE account_id = 1; | - | T1 modifies the balance but has not committed yet. |
3 | - | SELECT balance FROM account_balance WHERE account_id = 1; | T2 reads the uncommitted balance of 500. |
4 | ROLLBACK; | - | T1 rolls back the change, reverting the balance to its original value. |
Result | - | T2 reads an invalid balance of 500 | T2 used dirty data that no longer exists after T1's rollback. |
Problems Caused by Dirty Reads[편집 | 원본 편집]
- Inconsistent Data: Transactions may rely on temporary data that is later invalidated.
- Erroneous Decisions: Applications might make decisions based on incorrect or transient data.
- Compounded Errors: Subsequent transactions may propagate the effects of dirty reads, causing larger inconsistencies.
Preventing Dirty Reads[편집 | 원본 편집]
Dirty reads can be prevented by enforcing appropriate isolation levels:
- Read Committed:
- Ensures that a transaction can only read committed data.
- Prevents dirty reads but allows other anomalies like non-repeatable reads and phantom reads.
- Repeatable Read:
- Ensures consistent reads by preventing both dirty reads and non-repeatable reads.
- Serializable:
- Provides the highest level of isolation, preventing all types of anomalies.
Use Cases Where Dirty Reads Occur[편집 | 원본 편집]
Dirty reads can occur in systems that prioritize performance over strict consistency:
- Low Isolation Levels: Isolation levels like Read Uncommitted allow dirty reads to maximize concurrency.
- High-Performance Systems: Applications where fast response times are prioritized, such as real-time analytics or logging systems.
Example in SQL[편집 | 원본 편집]
To demonstrate the effect of dirty reads, consider the following SQL code:
-- Transaction A
BEGIN TRANSACTION;
UPDATE accounts SET balance = 500 WHERE account_id = 1;
-- Transaction A has not committed yet.
-- Transaction B
SET TRANSACTION ISOLATION LEVEL READ UNCOMMITTED;
SELECT balance FROM accounts WHERE account_id = 1;
-- Transaction B reads the uncommitted balance of 500.
-- Transaction A
ROLLBACK;
-- The balance reverts to its original value, but Transaction B already read dirty data.
Advantages and Disadvantages of Allowing Dirty Reads[편집 | 원본 편집]
- Advantages:
- Improved performance in scenarios where consistency is less critical.
- Suitable for systems with minimal dependencies between transactions.
- Disadvantages:
- Increased risk of data inconsistencies.
- Potential for downstream errors in dependent processes.