I am hosting a Wordpress VM on GCP (using the Marketplace image). It works great when I directly access the instance IP, and the latency is around 20 ms.
However, in order to make the site secure, I am using a GCP HTTP load balancer in front of the VM. I have pointed my domain to the load balancer.
When I access the Wordpress through the load balancer (either HTTP or HTTPS), I get a few queries that have very good latency times (around 17 ms), but then every 4 or 5 queries, there's a request that takes about 5 seconds. When I access the VM directly, this does not happen.
I enabled the load balancer log, and I observed that the VM is responding slowly every few requests. I tried to set the KeepAlive Apache2 parameter of the VM to 300, but it doesn't make any difference.
What might be the root cause of this? (I am not sure whether it's Wordpress, or the VM, or the load balancer).
Thanks
I spent many days trying to fix this, and today I just decided to go the old route and make a new load balancer. The new load balancer works like a charm. It was exactly the same configuration, so I'm not sure what happened, but there's that :)
Related
I'm trying to migrate a wordpress website from AWS to GCP.
I need a load balancer on GCP's side and it will take a while for it to provision.
How can I have the SSL install on GCP's server without any disruption on AWS's side?
Is there a recommended way to migrate with minimum downtime?
With respect, don't do this.
Instead, wait til your new vendor has provisioned the load balancer. Then put the TLS certificate into the load balancer. Then, and only then, switch your DNS records to point to the new load balancer.
The stopgap step of putting your TLS certs on the servers behind the load balancer is a mess of trouble, and unnecessary if you can delay your DNS cutover for a day or so, running your old system for that time.
I'm trying to set up SSL on my wordpress site.
I've an EC2 instance running wordpress on nginx and ubuntu. Database running on RDS.
I've launched an application load balancer with listeners on ports 80 and 443 and attached the SSL certificate which I got via ACM. I've set my targets to point to the EC2 instance I am using.
At this point the how-to guides and information stops. Apparently that's all there is to it and it should now all be working. However it's not. I'm getting connection refused errors when I add the https to my site's URL.
When I put my URL into https://www.sslchecker.com/sslchecker I'm told that no certificates are found.
So clearly I need to something more to get this working - can anyone point me to the next step?
Using the ELB and ACB is the way to go here. It sounds like you might be using the wrong type of ELB though. You mentioned application load balancer, you should use a classic load balancer. Also make sure your security groups are setup correctly to allow your ELB to talk to the EC2 instance.
You didn't mention Route53 but I assume you have the DNS entry setup to point at the ELB as well.
Share more and I will help more. Good luck.
I'm now reading design of Instagram and I found such a description of their load balancing system.
Every request to Instagram servers goes through load balancing machines; we used to run 2 nginx machines and DNS Round-Robin between them. The downside of this approach is the time it takes for DNS to update in case one of the machines needs to get decomissioned. Recently, we moved to using Amazon’s Elastic Load Balancer, with 3 NGINX instances behind it that can be swapped in and out (and are automatically taken out of rotation if they fail a health check). We also terminate our SSL at the ELB level, which lessens the CPU load on nginx. We use Amazon’s Route53 for DNS, which they’ve recently added a pretty good GUI tool for in the AWS console.
The question is. Am I right that for now they have a DNS Server which uses RR to decide on which nginx server to send the request. And each of this nginx servers at their turn resends the request to a cluster?
And the second question is. What the difference between nginx and load balancer. Why cannot we use nginx instead?
For your first question, I believe the answer seems to be that Instagram now uses Route53 to map DNS to an Elastic Load Balancer, which does two things: It routes traffic fairly evenly to three NGINX load balancers, and it provides SSL for all traffic. The NGINX servers then act as load balancers to content/application servers further down the stack. Using an ELB instead of round-robin DNS means they can add/remove/update instances attached to the ELB without ever having to worry about DNS updates or TTL.
As for the second question, you can use NGINX just as easily as HAproxy or other services to do load balancing. I am sure that part of the appeal to Instagram in choosing NGINX is its incredible speed and that it's asynchronous and "event-driven" instead of threaded like Apache2. When set up properly, that can mean less headaches under heavy loads.
I've found at that Instagram share their technology implementation with other developers trough their blog. They've some great solutions for the problems they run into. One of those solutions they've is an Elastic Load Balancer on Amazon with 3 nginx instances behind it. What is the task of those nginx servers? And what is the task of the Elastic Load balancers, and what is the relation between them?
Disclaimer: I am no expert on this in any way and am in the process of learning about AWS ecosystem myself.
The ELB (Elastic load balancer) has no functionality on its own except receiving the requests and routing it to the right server. The servers can run Nginx, IIS, Apache, lighthttpd, you name it.
I will give you a real use case.
I had one Nginx server running one WordPress blog. This server was, like I said, powered by Nginx serving static content and "upstreaming" .php requests to phpfpm running on the same server. Everything was going fine until one day. This blog was featured on a tv show. I had a ton of users and the server could not keep up with that much traffic.
My first reaction would be to just use the AMI (Amazon machine image) to spin up a copy of my server on a more powerful instance like m1.heavy. The problem was I knew I would have traffic increasing over time over the next couple of days. Soon I would have to spin an even more powerful machine, which would mean more downtime and trouble.
Instead, I launched an ELB (elastic load balancer) and updated my DNS to point website traffic to the ELB instead of directly to the server. The user doesn’t know server IP or anything, he only sees the ELB, everything else goes on inside amazon’s cloud.
The ELB decides to which server the traffic goes. You can have ELB and only one server on at the time (if your traffic is low at the moment), or hundreds. Servers can be created and added to the server array (server group) at any time, or you can configure auto scaling to spawn new servers and add them to the ELB Server group using amazon command line, all automatically.
Amazon cloud watch (another product and important part of the AWS ecosystem) is always watching your server’s health and decides to which server it will route that user. It also knows when all the servers are becoming too loaded and is the agent that gives the order to spawn another server (using your AMI). When the servers are not under heavy load anymore they are automatically destroyed (or stopped, I don’t recall).
This way I was able to serve all users at all times, and when the load was light, I would have ELB and only one Nginx server. When the load was high I would let it decide how many servers I need (according to server load). Minimal downtime. Of course, you can set limits to how many servers you can afford at the same time and stuff like that so you don’t get billed over what you can pay.
You see, Instagram guys said the following - "we used to run 2 Nginx machines and DNS Round-Robin between them". This is inefficient IMO compared to ELB. DNS Round Robin is DNS routing each request to a different server. So first goes to server one, second goes to server two and on and on.
ELB actually watches the servers' HEALTH (CPU usage, network usage) and decides which server traffic goes based on that. Do you see the difference?
And they say: "The downside of this approach is the time it takes for DNS to update in case one of the machines needs to get decommissioned."
DNS Round robin is a form of a load balancer. But if one server goes kaput and you need to update DNS to remove this server from the server group, you will have downtime (DNS takes time to update to the whole world). Some users will get routed to this bad server. With ELB this is automatic - if the server is in bad health it does not receive any more traffic - unless of course the whole group of servers is in bad health and you do not have any kind of auto-scaling setup.
And now the guys at Instagram: "Recently, we moved to using Amazon’s Elastic Load Balancer, with 3 NGINX instances behind it that can be swapped in and out (and are automatically taken out of rotation if they fail a health check).".
The scenario I illustrated is fictional. It is actually more complex than that but nothing that cannot be solved. For instance, if users upload pictures to your application, how can you keep consistency between all the machines on the server group? You would need to store the images on an external service like Amazon s3. On another post on Instagram engineering – “The photos themselves go straight to Amazon S3, which currently stores several terabytes of photo data for us.”. If they have 3 Nginx servers on the load balancer and all servers serve HTML pages on which the links for images point to S3, you will have no problem. If the image is stored locally on the instance – no way to do it.
All servers on the ELB would also need an external database. For that amazon has RDS – All machines can point to the same database and data consistency would be guaranteed.
On the image above, you can see an RDS "Read replica" - that is RDS way of load balancing. I don't know much about that at this time, sorry.
Try and read this: http://awsadvent.tumblr.com/post/38043683444/using-elb-and-auto-scaling
Can you please point the blog entry out?
Load balancers balance load. They monitor the Web servers health (response time etc) and distribute the load between the Web servers. On more complex implementations it is possible to have new servers spawn automatically if there is a traffic spike. Of course you need to make sure there is a consistency between the servers. THEY CAN share the same databases for instance.
So I believe the load balancer gets hit and decides to which server it will route the traffic according to server health.
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Nginx is a Web server that is extremely good at serving a lot of static content for simultaneous users.
Requests for dynamic pages can be offloaded to a different server using cgi. Or the same servers that run nginx can also run phpfpm.
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A lot of possibilities. I am on my cell phone right now. tomorrow I can write a little more.
Best regards.
I am aware that I am late to the party, but I think the use of NGINX instances behind ELB in Istagram blogpost is to provide high available load balancer as described here.
NGINX instances do not seem to be used as web servers in the blogpost.
For that role they mention:
Next up comes the application servers that handle our requests. We run Djangoon Amazon High-CPU Extra-Large machines
So ELB is used just as a replacement for their older solution with DNS Round-Robin between NGINX instances that was not providing high availability.
We are looking into setting up our application on AWS. This will run on 3 load balanced web servers. We have been looking into how to prevent DDOS attacks and how to serve a static page during maintenance and are looking at going with Nginx. So the setup would be Nginx in front of an elastic load balancer.
As with our setup when there is an upgrade to the application we update Nginx to serve a static maintenance page while a whole new stack comes online with its own elastic load balancer and to switch to the new application stack we will update the Nginx config to point to the new elastic load balancer.
Does this make any sense? the reason i am asking is that I cannot find anything on this type of setup online.
Thanks,
Colin.
The elastic load balancer works by using many ip-addresses. If you do dig amazon.com you can see how it's distributed with a low ttl. Once your nginx-server runs out of open ports it will go down.
It's however a very good idéa to use balancers in-front of your app-server. This scales very well with auto-scaling groups.
When you do the transition, just lower your CNAME ttl and point it to a new load balancer.
I see zero value going in this path-
Putting a single instance of nginx will just increase the complexity of the setup, cost more and most important will introduce a new single point of failure and performance/latency bottleneck (and will make your env much more vulnerable to DDOS).
AWS infrastructure is 100% programmable - learn how to control the ELB programatically : how to direct the traffic to a static site during maintenance (could be nginx hosted on one of your instances), and how to support your upgrade workflows.