We've all been there, the dreaded ticket that comes across our inbox. Always light on detail, just a single sentence: "The database server is slow." No five words bring as much fear, uncertainty and doubt to a DBA than those (well, maybe "The database server is down"). Armed with no information other than those five words, this blog post will serve to present a workflow that a DBA can follow using Foglight for Databases to determine first "if" a database server is slow, and if so, what may be causing the problem.
Step 1: Information Gathering
The first step in looking into a "slow" database server, is to try and quantify what "slow" means. The more information/context you can gather about the perceived problem, the more focused your diagnostic efforts can be. Questions I like to ask (if it's even possible to ask) are:
I'm sure there are other questions you can ask, but this information gathering step is absolutely critical so that you can focus in on the problem, rather than having to take an extremely broad look at performance.
Step 2: Investigate Alarms
Ideally, if you have invested either time, or money into a monitoring solution, it will have raised an alarm that should indicate that there may be a problem. The specific alarm that has been raised, should provide some context into what exactly may be occurring. From the Foglight Global Databases dashboard, you can view alarms across all servers, and click on any alarm for more details:
There are dozens of alarms that may help point you in the right direction. Some examples of alarms to look for:
Knowing which alarms are active, should help you focus your diagnostics into a particular drilldown, versus having to take a broader look at performance. Whether or not any relevant alarms have raised however, you can still follow the rest of the workflow presented.
Step 3: Look for Smoking Guns
There are a handful of issues that I often look for as potentially obvious causes of a performance issue. If I see one of the issues below, I can be fairly confident not only that I know exactly where to look to diagnose the problem, but also that my diagnostics will be successful. I've listed some "smoking gun" issues below, with my next steps for diagnostics:
As you can see, this list of "obvious" issues can be lengthy. Looking one at a time through this list on a system that you are investigating can be tedious and time consuming. Foglight for Databases provides an "overview" page of each database server that can provide much of the information above in an easy to view single page. A DBA should be able to quickly glance at the overview screen, and understand whether any of the above "smoking guns" are present, and if so, launch into a very specific diagnostics exercise. The screenshot below overlays the six "smoking guns" above so you know exactly where to look:
Step 4: What if There Aren't Any Smoking Guns
What if there aren't any obvious causes of "slowness". Don't fret, but the job will be a bit harder. With no "easy" problem, it's time to roll up our sleeves, and start digging into query performance so that we can start to understand what queries are running, how they are running, and why they are running that way. Each database platform provides its own mechanism for understanding query performance, however Foglight makes this task simple with its "Performance Investigator (PI)" drilldowns. The Performance Investigator drilldown allows a DBA to focus in on any time range, and understand what queries, users, databases, programs, machines, etc... are consuming resources. Through multiple levels of dimensional analysis, a DBA can understand (for example) that one out of 25 databases is consuming 90% of the active time. Inside of that database, they may figure out that 1 out of 3 application servers are generating 90% of the activity against that database. Finally, from that application server, they may discover that one user is executing a query that is averaging 2 minutes of response time where it usually takes 15 seconds. This individual query may not have generated a "smoking gun" condition, but assuming it's performance is critical to the performance of the application will help a DBA zero in on the root cause of the "slowness". From here, the customer could dig deeper into any change events that might have caused the query performance to degrade, or perhaps look into tuning opportunities to rewrite the query or modify indexes that might help. I've included a screenshot of the Performance Investigator drilldown below, showing "multi-dimension analysis" into query performance, however the screenshot does not do it justice. For a broader look at the features of the Performance Investigator drilldown, please watch the videos recorded by one of Foglight's product managers, Pini Dibask.
I hope this has been helpful. If anyone has any comments, I'd love to hear them!
"The database server is down i.e. armed with no information other than these five words", true! true!! true!!! Also, this blog post is very clearly explained with those steps to solve independently. "I hope this has been helpful", of course yes! 100% this post is very helpful and I don't have any questions to ask you. Thanks for sharing this great post!