Google Pagespeed insights reports "Reduce server response times (TTFB) -estimated saving 1.72 s" where as Google Chrome Console/network shows 400ms ?
The difference could be explained by the latency (distance) of your 1) client 2)dns server and 3) your backend server, and between the 1) pagespeed server 2) dns and 3) your backend server (possible solution is a cdn setup for your dns and backend server). Your browser has also cached your dns lookup. Flush your dns on your browser to get a better comparison.
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I've been having slow response times in TTFB respect, on a localhost. Today, I tested builiding the app on DigitalOcean and the response times remain slow. It's a very basic implementation so I don't see why it's taking 1000+ms to load the pages.
Here you have the IP to see what's going on:
http://207.154.195.177/
I'm running a nodejs webserver on azure using the express library for http handling. We've been attempting to enable cloudflare protection on the domains pointing to this box, but when we turn cloudflare proxying on, we see cycling periods of requests succeeding, and requests failing with a 524 error. I understand this error is returned when the server fails to respond to the connection with an HTTP response in time, but I'm having a hard time figuring out why it is
A. Only failing sometimes as opposed to all the time
B. Immediately fixed when we turn cloudflare proxying off.
I've been attempting to confirm the TCP connection using
tcpdump -i eth0 port 443 | grep cloudflare (the request come over https) and have seen curl requests fail seemingly without any traffic hitting the box, while others do arrive. For further reference, these requests should be and are quite quick when they succeed, so I'm having a hard time believe the issue is due to a long running process stalling the response.
I do not believe we have any sort of IP based throttling or firewall (at least not intentionally?)
Any ideas greatly appreciated, thanks
It seems that the issue was caused by DNS resolution.
On Azure, you can configure a custom domain name for your created webapp. And according to the CloudFlare usage, you need to switch the DNS resolution to CloudFlare DNS server, please see more infomation for configuring domain name https://azure.microsoft.com/en-us/documentation/articles/web-sites-custom-domain-name/.
You can try to refer to the faq doc of CloudFlare How do I enter Windows Azure DNS records in CloudFlare? to make sure the DNS settings is correct.
Try clearing your cookies.
Had a similar issue when I changed cloudflare settings to a new host but cloudflare cookies for the domain was doing something funky to the request (I am guessing it might be trying to contact the old host?)
It has recently come to my attention that setting up multiple A records for a hostname can be used not only for round-robin load-balancing but also for automatic failover.
So I tried testing it:
I loaded a page from our domain
Noted which of our servers had served the page
Turned off the web server on that host
Reloaded the page
And indeed the browser automatically tried a different server to load the page. This worked in Opera, Safari, IE, and Firefox. Only Chrome failed to try a different server.
But after leaving that server offline for a few minutes and looking at the access logs, I found that the number of requests to the other servers had not significantly increased. With 1 out of 3 servers offline, I had expected accesses to each of the remaining 2 servers to roughly increase by 50%, but instead I only saw 7-10%. That can only mean DNS-based failover does not work for the majority of browsers/visitors, which directly contradicts what I had just tested.
Does anyone have an idea what is up with DNS-based web browser failover? What possible reason could there be why automatic failover works for me but not the majority of our visitors?
What's happening is that the browsers are not doing automatic DNS failover.
If you have multiple A records on a domain then when your nameserver requests the IP for the domain you typed into your browser, it'll request one from the SOA. It could be any of those A records. Then it passes it along.
Some nameservers are 'smart' enough to request a new A record if the one it gets doesn't work and some aren't. So if you set multiple A records then you will have set up a pseudo redundancy failover, but only for those people with 'smart' nameservers. The rest get a toss of the dice on which IP they get and if it works then good, and if not then it will fail to load as it did for you in Chrome.
If you want to specifically test this then you can use your hosts file C:\Windows\system32\drivers\etc\hosts in Windows and /etc/hosts in Linux to specify what IP you want to go with what domain to see if you get a true failover - as what you'll run into in practicality is that DNS servers across the net will cache your domain name resolution based on its TTL. So if/when you get a real failure, that IP will still need to be resolve and be otherwise farmed out to another nameserver.
Another possible explanation is that, for most public websites, the bulk of traffic comes from bots not from browsers. Depending on the bot it is possible that they aren't quite as smart as the browsers when it comes to handling multiple A records for a domain.
Also, some bots use keep-alives to keep the TCP connections open & make multiple HTTP requests over the same connection. Given that the DNS lookup is only done when a connection is made, they will continue to make requests to the old IP address at least as long as the connection is kept open.
If the above explanation has any weight you should be able to see it in your logs by examining the user agent strings.
I will be running a dynamic web site and if the server ever is to stop responding, I'd like to failover to a static website that displays a "We are down for maintenance" page. I have been reading and I found that switching the DNS dynamically may be an option, but how quick will that change take place? And will everyone see the change immediately? Are there any better ways to failover to another server?
DNS has a TTL (time to live) and gets cached until the TTL expires. So a DNS cutover does not happen immediately. Everyone with a cached DNS lookup of your site still uses the old value. You could set an insanely short TTL but this is crappy for performance. DNS is almost certainly not the right way to accomplish what you are doing.
A load balancer can do this kind of immediate switchover. All traffic always hits the load balancer first which under normal circumstances proxies requests along to your main web server(s). In the event of web server crash, you can just have the load balancer direct all web traffic to your failover web server.
pound, perlbal or other software load-balancer could do that, I believe, yes
perhaps even Apache rewrite rules could allow this? I'm not sure if there's a way to branch when the dynamic server is not available, though. Customize Apache 404 response to your liking?
first of all is important understand which kind of failure you want failover, if it's app/db error and the server remain up you can create a script that do some checks and failover your website to another temp page. (changing apache config or .htaccess)
If is an hardware failover the DNS solution is ok but it's not immediate so you will lose some users traffic.
The best ideal solution is to use a proxy (like HAProxy) that forward the HTTP request to at least 2 webserver and automatically detect if one of those fail and switch over to the working one.
If you're using Amazon AWS you can use ELB - Elastic Load Balancer
How can I make that a site automagically show a nice "Currently Offline" page when the server is down (I mean, the full server is down and the request can't reach IIS)
Changing the DNS manually is not an option.
Edit: I'm looking to some kind of DNS trick to redirect to other server in case the main server is down. I can make permanent changes to the DNS, but not manually as the server goes down.
I have used the uptime services at DNSMadeEasy to great success. In effect, they set the DNS TTL to a very low number (5 minutes). They take care of pinging your server.
In the event of outage, DNS queries get directed to the secondary IP. An excellent option for a "warm spare" in small shops with limited DNS requirements. I've used them for 3 years with not a single minute of downtime.
EDIT:
This allows for geographically redundant failover, which the NLB solution proposed does not address. If the network connection is down, both servers in a standard NLB configuration will be unreachable.
Some server needs to dish out the "currently offline page", so if your server is completely down, there will have to be some other server serving the file(s), so either you can set up a cluster of servers (even if just 2) and while the first one is down, the 2nd is configured only to return the "currently offline page". Once the 1st server is back up, you can take down the 2nd safetly (as server 1 will take all the load).
You probably need a second server with 100% uptime and then add some kind of failover load balancer. to it, and if the main server is online redirect to that and if it isn't redirect to itself showing a page saying server is down
I believe that if the server is down, there is nothing you can do.
The request will send up a 404 network error because when the web address is resolved to an IP, the IP that is being requested does not exist (because the server is down). If you can't change the DNS entry, then the client browser will continue to hit xxx.xxx.xxx.xxx and will never get a response.
If the server is up, but the website is down, you have options.
EDIT
Your edit mentions that you can make a permanent change the IP. But you would still need a two server setup in order to achieve what you are talking about. You can direct the DNS to a load balancer which would be able to direct the request to a server that is currently active. However, this still requires 100% uptime for the server that the DNS points to.
No matter what, if the server that the DNS is pointing to (which you must control, in order to redirect the traffic) is down, then all requests will receive a 404 network error.
EDIT Thanks to brian for pointing out my 404 error error.
Seriously, DNS is not the right answer to server load-balancing or fail-over. Too many systems (including stub clients and ISP recursive resolve) will cache records for much longer than the specified TTL.
If both servers are on the same network, use routing protocols to achieve fail-over by having both servers present the same IP address to the network, but where the fail-over server only takes over if it detects that the (supposedly) live server is offline.
If the servers are Unix, this is easily done by running Quagga on each server, and then using OSPF as the local routing protocol. I've personally used this for warm standby servers where the redundant system was actually in another data center, albeit one that was connected via a direct link to the main data center.
Certain DNS providers, such as AWS's Route 53, have a health-check option, which can be used to re-route to a static page. AWS has a how-to guide on setting this up.
I'm thinking if the site is load balanced the load balancer itself would detect that the web servers it's trying to redirect clients to are down, therefore it would send the user to a backup server with a message dictating technical problems.
Other than that.....
The only thing I can think is to control the calling page. Obviously that won't work in all circumstances... but if you know that most of your hits to this server will come from a particular source, then you could add a java script test to the source, and redirect to a "server down" page that is generated on a different server.
But if you are trying to handle all hits, from all sources (some of which you can't control), then I think you are out of luck. As other folks are saying - when a server is down, the browser gets a 404 error when it attempts a connection.
... perhaps there would be a way at a point in between to detect 404 errors being returned by servers and replacing them with a "server is down" web page. You'd need something like an HTML firewall or some other intermediate network gear between the server and the web client.