Note: Written by Phil Thompson (<[email protected]>). Updates for protocol 2.0 by Tom Lane (<[email protected]>).
Postgres uses a message-based protocol for communication between frontends and backends. The protocol is implemented over TCP/IP and also on Unix sockets. Postgres 6.3 introduced version numbers into the protocol. This was done in such a way as to still allow connections from earlier versions of frontends, but this document does not cover the protocol used by those earlier versions.
This document describes version 2.0 of the protocol, implemented in Postgres 6.4 and later.
Higher level features built on this protocol (for example, how libpq passes certain environment variables after the connection is established) are covered elsewhere.
The three major components are the frontend (running on the client) and the postmaster and backend (running on the server). The postmaster and backend have different roles but may be implemented by the same executable.
A frontend sends a start-up packet to the postmaster. This includes the names of the user and the database the user wants to connect to. The postmaster then uses this, and the information in the pg_hba.conf file to determine what further authentication information it requires the frontend to send (if any) and responds to the frontend accordingly.
The frontend then sends any required authentication information. Once the postmaster validates this it responds to the frontend that it is authenticated and hands over the connection to a backend. The backend then sends a message indicating successful start-up (normal case) or failure (for example, an invalid database name).
Subsequent communications are query and result packets exchanged between the frontend and the backend. The postmaster takes no further part in ordinary query/result communication. (However, the postmaster is involved when the frontend wishes to cancel a query currently being executed by its backend. Further details about that appear below.)
When the frontend wishes to disconnect it sends an appropriate packet and closes the connection without waiting for a response for the backend.
Packets are sent as a data stream. The first byte determines what should be expected in the rest of the packet. The exception is packets sent from a frontend to the postmaster, which comprise a packet length then the packet itself. The difference is historical.