We didn’t find any problems when we tested other aspects of TorGuard’s performance. Each time we checked our location via IP address, it accurately resolved to the location of a TorGuard server. Neither our true IP address nor our location was exposed when we tested for DNS leaks and IPv6 leaks. TorGuard runs its own DNS servers—a requirement for all the VPNs we tested—so the routing that happens when you go to a website isn’t released to your ISP, Google, or anyone else. And since TorGuard doesn’t support IPv6, the app disables it completely, just like IVPN.
It can be quite simple to watch Netflix and other restricted goodies. You'll have to use a VPN service that allows you to get a unique IP address. This can often be available for an additional fee. Look for VPN services that offer a "dedicated IP address", "dedicated IP", or "static IP." Additional features like these will always allow you to access content from Netflix through a VPN service.
Sadly, I engaged PIA, the number one rated and paid a "great price" for a 3 year service only to findout that dur to a recent SMTP abuses they no longer can be used when using Microsoft servers. So, all of my outbound email is rejected from Microsoft Servers due to this policy. In itself, fine, but as I enrolled in this service and while setting up the servie at no time was this mentioned nor, prior to a May 15 issue, was this a problem.
We tested each service using both the Netflix-operated Fast.com download speed test and the more comprehensive Internet Health Test; the latter measures speeds up and down through multiple interconnection points between Internet providers. We ran each test on the macOS version of each VPN software in its default configuration, with our test computer connected over Gigabit Ethernet to a cable modem with no other traffic running through it. We recorded baseline download rates without a VPN active of nearly 300 mbps, and we checked our non-VPN speeds at random intervals to ensure that our local ISP wasn’t affecting the tests.
The initial PPP payload is encrypted and encapsulated with a PPP header to create a PPP frame. The PPP frame is then encapsulated with a modified GRE header. GRE is described in RFC 1701 and RFC 1702 in the IETF RFC Database and was designed to provide a simple, general purpose mechanism for encapsulating data sent over IP networks. GRE is a client protocol of IP using IP protocol 47.
Supported Client Software Android, Chrome, Firefox, iOS, Linux, macOS, Windows Android, Chrome, iOS, Linux, macOS, Windows Android, Chrome, iOS, macOS, Opera, Windows Android, iOS, Linux, macOS, Windows Android, ChromeOS, iOS, Linux, macOS, Windows Android, iOS, Linux, macOS, Windows Android, iOS, macOS, Windows Android, iOS, macOS, Windows Android, Chrome, Firefox, iOS, Linux, macOS, Windows Android, iOS, macOS, Windows