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filesystem

PostgreSQL Shared Buffers vs free RAM

PostgreSQL, like all other database engines, modifies the table and index blocks in shared buffers. People think that the main goal of buffered reads is to act as a cache to avoid reading from disk. But that’s not the main reason as this is not mandatory. For example PostgreSQL expects that the filesystem cache is used. The primary goal of shared buffers is simply to share them because multiple sessions may want to read a write the same blocks and concurrent access is managed at block level in memory. Without shared buffers, you would need to lock a whole table. Most of the database engines use the shared buffers for caching. Allocating more memory can keep the frequently used blocks in memory rather than accessing disk. And because they manage the cache with methods suited to the database (performance and reliability) they don’t need another level of cache and recommend direct I/O to the database files. But not with Postgres.

Repairing a Linux host with disk/filesystem issues

This is a writeup on some scenario’s for disk issues that you could encounter when running linux systems. The linux systems I am talking about are centos/redhat/oracle (EL) version 7 systems. This is just a writeup for myself to know how to deal with different scenario’s, hopefully other people find this interesting too. I don’t believe there is any difference for the below scenario’s and resolutions between running physical/bare metal, virtualised or in the cloud, provided you can get access the you need (like the BIOS POST console). The test configuration uses (legacy) MBR (meaning non UEFI), grub2 as boot loader, LVM for meta devices (you don’t want to run without LVM!!) and XFS for the filesystems.