Monthly Archives: March 2016

Using Fiddler for an Android and Windows VM development environment

In this post I describe the development environment that I use when creating Android apps that rely on ASP.NET based Web applications and Web APIs.

  • The development machine is a MBP running OS X with Android Studio.
  • Android virtual devices are run on Genymotion, which uses VirtualBox underneath.
  • Web applications and Web APIs are hosted on a Windows VM running on Parallels over the OS X host.

I use the Fiddler proxy to enable connectivity between Android and the ASP.NET apps, as well as to provide me full visibility on the HTTP messages. Fiddler also enables me to use HTTPS even on this development environment.

The main idea is to use Fiddler as the Android’s system HTTP proxy, in conjunction with a port forwarding rule that maps a port on the OS X host to the Windows VM. This is depicted in the following diagram.



The required configuration steps are:

  1. Start Fiddler on the Windows VM and allow remote computers to connect
    • Fiddler – Tools – Fiddler Options – Connections – check “Allow remote computers to connect”.
    • This will make Fiddler listen on
  2. Enable Fiddler to intercept HTTPS traffic
    • Fiddler – Tools – Fiddler Options –  HTTPS – check “Decrypt HTTPS traffic”.
    • This will add a new root certificate to the “Trusted Root Certification Authorities” Windows certificate store.
  3. Define a port forwarding rule mapping TCP port 8888 on the OS X host to port TCP 8888 on the Windows guest (where Fiddler is listening).
    • Parallels – Preferences – Network:change settings – Port forward rules  – add “TCP:8888 -> Windows:8888”.
  4. Check which “host-only network” is the Android VM using
    • VirtualBox Android VM – Settings – Network – Name (e.g. “vboxnet1”).
  5. Find the IP for the identified adapter
    • VirtualBox – Preferences – Network – Host-only Networks – “vboxnet1”.
    • In my case the IP is
  6. On Android, configure the Wi-Fi connection HTTP proxy (based on “Configure Fiddler for Android / Google Nexus 7”).
    • Settings – Wi-Fi – long tap on choosen network – modify network – enable advanced options – manual proxy
      • Set “Proxy hostname” to the IP identified in the previous step (e.g.
      • Set “Proxy port” to 8888.
    • With this step, all the HTTP traffic will be directed to the Fiddler HTTP proxy running on the Windows VM
  7. The last step is to install the Fiddler root certificate, so that the Fiddler generated certificates are accepted by the Android applications, such as the system browser (based on “Configure Fiddler for Android / Google Nexus 7”).
    • Open the browser and navigate to http://ipv4.fiddler:8888
    • Select the link “FiddlerRoot certificate” and on the Android dialog select “Credential use: VPN and apps”.

And that’s it: all HTTP traffic that uses the Android system’s proxy settings will be directed to Fiddler, with the following advantages

  • Visibility of the requests and responses on the Fiddler UI, namely the ones using HTTPS.
  • Access to Web applications running on the Windows VM, using both IIS hosting or self-hosting.
  • Access to external hosts on the Internet.
  • Use of the Windows “hosts” file host name overrides.
    • For development purposes I typically use host names other than “localhost”, such as “” or “”.
    • Since the name resolution will be done by the Fiddler proxy, these host names can be used directly on Android.

Here is the screenshot of Chrome running on Android and presenting a ASP.NET MVC application running on the Windows VM. Notice the green “https” icon.

Screen Shot 2016-03-05 at 19.31.53

And here is the Chrome screenshot of a IdentityServer3 login screen, also running on the Windows VM.

Screen Shot 2016-03-05 at 19.34.42

Hope this helps!