Troubleshooting PostgreSQL Error 53300: TOO_MANY_CONNECTIONS


When you encounter the 53300: TOO_MANY_CONNECTIONS error in PostgreSQL, it indicates that your database has reached its maximum configured limit for simultaneous connections. This can happen due to high traffic, inefficient application design, or insufficient configuration settings. Here's how to troubleshoot and resolve this issue.

Runbook to Troubleshoot Error 53300 in PostgreSQL

Step 1: Assess the Current Situation

  1. Check Current Connections: Use SELECT * FROM pg_stat_activity; to see all active connections. This helps identify if there are unnecessary or idle connections.
  2. Application Analysis: Check your application logs and connection management strategy. Sometimes, applications don't release connections properly, leading to connection buildup.

Step 2: Configuration Review and Adjustment

  1. Review max_connections Setting:
    • The max_connections setting in postgresql.conf determines the maximum number of concurrent connections.
    • Increasing this number allows more connections but also increases memory usage and potential for resource contention.
  2. Tune Connection Memory Settings:
    • Adjust settings like work_memshared_buffers, and maintenance_work_mem to ensure efficient memory usage.
  3. Consider Using Connection Pooling:
    • Connection pooling allows multiple clients to share a set number of connections.
    • Tools like PgBouncer or Pgpool-II can manage a pool of connections, reducing the load on the database.

Step 3: Implement Best Practices

  1. Optimize Application Database Usage:
    • Ensure that your application correctly manages database connections, opening them when needed and closing them after use.
    • Use connection pooling at the application level if possible.
  2. Monitor and Analyze Connection Usage:
    • Regular monitoring helps identify patterns or leaks in connection usage.
    • Tools like pgBadger can analyze PostgreSQL logs and provide insights into connection usage.

Step 4: Scale Your Database

  1. Vertical Scaling:
    • If resource contention is a concern, consider adding more CPU or memory to your database server.
  2. Horizontal Scaling:
    • Consider setting up read replicas for read-heavy workloads to distribute the read queries across multiple servers.

Step 5: Review and Implement Maintenance Practices

  1. Regular Maintenance:
    • Regularly run maintenance tasks like VACUUMANALYZE, and REINDEX to keep the database performing optimally.
  2. Application Maintenance:
    • Regularly review and update your application code to optimize database interactions.


Resolving the 53300: TOO_MANY_CONNECTIONS error in PostgreSQL involves a combination of immediate action to manage current connections, configuration optimization, application-level improvements, and considering scaling options. Connection pooling is often a key strategy in managing connection loads effectively. Regular monitoring and maintenance, both at the database and application levels, are crucial for preventing recurrence of this issue.

About Shiv Iyer 444 Articles
Open Source Database Systems Engineer with a deep understanding of Optimizer Internals, Performance Engineering, Scalability and Data SRE. Shiv currently is the Founder, Investor, Board Member and CEO of multiple Database Systems Infrastructure Operations companies in the Transaction Processing Computing and ColumnStores ecosystem. He is also a frequent speaker in open source software conferences globally.