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Automated provisioning of Santoku Linux (configuration of an Ubuntu VM containing the Android development environment, including Android ADT Bundle with SDK, Eclipse & the Android NDK using the Vagrant DevOps tool with Chef and shell-scripts, as well as mobile forensics, malware, and security tools)

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android-vm

Automated provisioning and configuration of an Ubuntu VM containing the Android development environment, including Android ADT Bundle with SDK, Eclipse & the Android NDK using the Vagrant DevOps tool with Chef and shell-scripts.

This automated VM installation and configuration uses the excellent DevOps tool, Vagrant which works with both VirtualBox (free) and VMware Fusion & Workstation (paid plug-in) in addition to several Community Chef Cookbooks.

A special welcome to fellow Harvard classmates. This project was built with the Harvard CSCI E-65 Building Mobile Apps course in mind. However, there is no reason it cannot be used to provision a consistent, professional Android development environment.

Please feel free to contribute improvements and enhancements to the provisioning code & reporting issues or questions. The goal is to improve this Android VM project with community support.

Currently, it will provision an Android VM for development with the following specifications,

Clone the Android VM Code Repository

  1. Create a working directory to use for the Android VM project in, e.g. /csci65/android-vm or C:/csci65/android-vm

    In OS X & Linux, e.g.

     $ mkdir /csci65/android-vm
     $ cd /csci65/android-vm
    

    In Windows, e.g.

     $ mkdir c:\csci65\android-vm
     $ cd c:\csci65\android-vm
    
  2. Download or clone the project repository into the newly created directory on your local machine from one of the following sources,

    Visit the Android-VM repository on GitHub,

    https://github.com/rickfarmer/android-vm

    Clone the Android-VM repository directly from GitHub,

    https://github.com/rickfarmer/android-vm.git

    Download the Android-VM repository as a zip file,

    https://github.com/rickfarmer/android-vm/archive/master.zip

Install Vagrant

Note: Vagrant has a prerequisite of an installed and functioning version of one of the following virtualization products,

  1. Download and install the latest version of Vagrant for your OS from,

     [http://downloads.vagrantup.com/](http://downloads.vagrantup.com/)
    
  2. If using VMware, install the purchased VMware Provider Plug-in as mentioned in the documentation

Install the Android VM

Note: All the software needed is automatically downloaded as it is needed. Several of the downloads are somewhat large. Patience is a virtue while the automated installation is running.

  1. From the newly created working directory, e.g.

     $ cd /csci65/android-vm && git submodule init
    
  2. Run the following to start Vagrant and kick-off the process to build an Android VM,

    For VirtualBox,

     $ vagrant up
    

    For VMware Fusion,

     $ vagrant up --provider=vmware_fusion 
    

    For VMware Workstation

     $ vagrant up --provider=vmware_workstation 
    

    Note: As the Android VM build runs you will see various types of screen output from Vagrant, Chef and Shell scripts -- some of the dependency downloads and compilations require a bit of time. Again, Patience is a virtue.

  3. Once the Android VM build provisioning process is complete, run the following to login via SSH,

     $ vagrant ssh
    
  4. The Ubuntu Unity desktop UI is set to automatically launch on vagrant up, login using the credentials,

    • Username: vagrant
    • Password: vagrant
  5. The Android development environment directories with eclipse, sdk and ndk are located in the directory /usr/local/android/.

  6. The VM has an internal /vagrant directory which maps to the directory created previously (i.e. the one from which you are running the Android VM on your local machine), e.g. /csci65/android-vm or c:\csci65\android-vm maps to the internal VM directory /vagrant.

    The net effect is that anything you drop in your local working directory, e.g. e.g. /csci65/android-vm or c:\csci65\android-vm, can be accessed from within the VM by opening the directory "/vagrant" and vice-versa

Manually Configure the Android VM in the Virtualization Provider

To connect an Android device you must manually setup a USB connection mapping for your Android device to the new VM

This configuration will vary with your provider (hypervisor), VMware Fusion, Workstation, or VirtualBox.

For example, if using VMware Fusion perform the following steps,

  1. Plug your android device hardware into the computers USB port

  2. Open the 'Virtual Machine Library'

  3. Select the VM, e.g. "android-vm: default", right-click and choose 'Settings...'

  4. Select 'USB & Bluetooth', check the box next to your device and set the 'Plug In Action' to 'Connect to Linux'

  5. Plug the device into the USB port and verify that it appears when you run lsusb from the command line

  6. Your device should appear when running lsusb enabling you to use Android adb, e.g.

     $ adb devices
     	...
     	List of devices attached
     	007jbmi6          device
    
     $ adb shell
     	i.e. to log into the device (be sure to enable USB debugging on the device)
    

Note: Additionally you may want to change various settings in the Virtualization Provider to size memory and vCPUs allocated to the Android VM

Vagrant Basics & Workflow

Vagrant boxes are just pre-configured virtual machines that Vagrant uses as a template to clone.

To see the available boxes,

	$ vagrant box list
	...
	precise64   (vmware_fusion)
	precise64   (virtualbox)
	centos64    (vmware_fusion)

The box files (aka template VMs) are stored in ~/vagrant.d but you should not care since you manage the box files through vagrant.

When you issue vagrant up, vagrant will download the box from the url unless its already cached locally. Once available, it will clone the box into the directory you've chosen to work in, e.g. /csci65/android-vm

In the base directory (e.g. /csci65/android-vm) where the Vagrantfile is located, you should see a hidden .vagrant directory which holds the actual cloned VM files if you are interested in exploring further.

  • To start your vagrant system use,

    For VirtualBox,

      $ vagrant up
    

    For VMware Fusion,

      $ vagrant up --provider=vmware_fusion 
    

    For VMware Workstation

      $ vagrant up --provider=vmware_workstation 
    
  • To login to your vagrant system use,

      $ vagrant ssh
    
  • The basic workflow is,

      $ vagrant up    # To start the VM using VirtualBox (default)
    

or

	$ vagrant up --provider=vmware_fusion     # To start the VM using VMware Fusion (vmware_workstation for Windows users)
		*Spins up the Android VM and loads the Ubuntu Unity desktop UI*
	$ vagrant ssh
		*At this point you are logged into the VM to do the cli work you want to do, e.g.*
		$ lsusb
		$ adb devices
		$ adb shell
		$ adb install
		$ adb push
		$ adb pull
		... for more detail see [http://developer.android.com/tools/help/adb.html]
	
	$ android (from the command line) see [http://developer.android.com/tools/projects/projects-cmdline.html]
	
	$ vagrant status
	$ vagrant halt  # To shutdown the VM

or

	$ vagrant suspend  
  • These are the only commands you will likely use on a regular basis. Vagrant manages everything for you, so there is no need to configure the VM from VMware or Virtual Box except to change the VM memory, CPU allocation, & connect the Android USB device for connection via the Android adb command.

If you are interested in the other options Vagrant offers, please see the man help file using,

$ vagrant --help

References

  1. Vagrant v2 documentation
  2. http://www.vagrantbox.es/
  3. Chef Cookbooks

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Automated provisioning of Santoku Linux (configuration of an Ubuntu VM containing the Android development environment, including Android ADT Bundle with SDK, Eclipse & the Android NDK using the Vagrant DevOps tool with Chef and shell-scripts, as well as mobile forensics, malware, and security tools)

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