- Base Images
- Kali On ARM
- Gem PDA
- Raspberry Pi - Full Disk Encryption
- Galaxy Note 10.1
- Raspberry Pi
- Acer Tegra Chromebook 13"
- ASUS Chromebook Flip
- BeagleBone Black
- Cubieboard 2
- HP Chromebook
- ODROID U2
- Raspberry Pi - Disk Encryption
- Raspberry Pi 2
- Samsung ChromeBook
- Samsung Chromebook 2
- USB Armory
- Utilite Pro
- Kali NetHunter Documentation
- NetHunter Rootless
- Installing NetHunter
- Installing NetHunter On the Gemini PDA
- NetHunter Components
- NetHunter Home Screen
- NetHunter Chroot Manager
- NetHunter KeX Manager
- NetHunter USB-Arsenal
- NetHunter BadUSB Attack
- NetHunter Application - Terminal
- NetHunter Custom Commands
- NetHunter DuckHunter Attacks
- NetHunter HID Keyboard Attacks
- NetHunter Kali Services
- NetHunter MAC Changer
- NetHunter MANA Evil Access Point
- NetHunter Man In The Middle Framework
- NetHunter Metasploit Payload Generator
- NetHunter Nmap Scan
- NetHunter Exploit Database SearchSploit
- Wireless Cards and NetHunter
- Building a New Device File
- Building NetHunter
- Porting NetHunter to New Devices
- Testing Checklist
- Patching the Kernel
- Configuring the Kernel - General
- Configuring the Kernel - Network
- Configuring the Kernel - Wifi
- Configuring the Kernel - SDR
- Configuring the Kernel - USB
- General Use
- Kali Network Repositories (/etc/apt/sources.list)
- HiDPI (High Dots Per Inch) Display
- Install NVIDIA GPU Drivers
- Kali Linux XFCE FAQ
- Kali Linux Forensics Mode
- Kali Linux Metapackages
- Configuring Yubikeys for SSH Authentication
- Kali In The Browser (Guacamole)
- Kali In The Browser (noVNC)
- All about sudo
- Updating Kali
- Kali's Domains
- Kali Development
- Public Packaging
- ARM Cross-Compilation
- Building Custom Kali ISOs
- Custom Beaglebone Black Image
- Custom Chromebook Image
- Custom CuBox Image
- Custom EfikaMX Image
- Custom MK/SS808 Image
- Custom ODROID X2 U2 Image
- Custom Raspberry Pi Image
- Generate an Updated Kali ISO
- Live Build a Custom Kali ISO
- Preparing a Kali Linux ARM chroot
- Rebuilding a Source Package
- Recompiling the Kali Linux Kernel
Dual Boot Kali on Mac Hardware
IMPORTANT! Some newer Macs do not run Linux well, or at all. Please look into if your Mac can use Linux before attempting.
Kali Linux Installation Requirements
Since the release of Kali Linux 1.0.8, Kali Linux supports EFI out of the box. This added feature simplifies the process of getting Kali installed and running on various Apple MacBook Air, Pro, and Retina models.
The make/model/year of the device will determine how successful your experience will be, with newer devices having a better chance of working. Pre-installing rEFInd may also increase the odds of success on older devices.
This guide will show you to dual-boot OSX with Kali Linux using rEFInd, with the option of encrypting the Kali Linux partition. If you wish to replace OSX completely, please refer to our Single Boot Kali on Mac Hardware guide.
By using using the 3rd party software rEFInd (a fork of rEFIt) we are able to open up the boot menu used in Apple’s OSX OS, which is perfect for dual booting. It also has the advantage of helping older devices boot from USB that would not be able to otherwise. Once Kali Linux has been installed, rEFInd can be customized to be hidden or removed completely.
- A minimum of 20 GB disk space for the Kali Linux install.
- A minimum of 1 GB RAM. 2 GB or more recommended.
- Devices older than ‘late 2012’, may require a blank DVD. USB booting may not work without rEFInd pre-installed.
- For devices newer than ‘late 2012’, you’ll need a blank DVD or a USB drive.
- OSX 10.7 or higher
Preparing for the Installation
- Download Kali Linux.
- Burn the Kali Linux ISO image to a DVD or copy the image to USB drive.
- Backup any important information on the device to external media.
Preparing OSX (Installing rEFInd)
At the time of this writing, the latest version of rEFInd is 0.8.3. Boot into OSX and download a local copy.
osx:~ mbp$ curl -s -L http://sourceforge.net/projects/refind/files/0.8.3/refind-bin-0.8.3.zip -o refind.zip
After downloading rEFInd, extract the contents of the zip file and run the install shell script with sudo.
osx:~ mbp$ unzip -q refind.zip osx:~ mbp$ cd refind-bin-*/ osx:refind-bin-0.8.3 mbp$ sudo bash install.sh WARNING: Improper use of the sudo command could lead to data loss or the deletion of important system files. Please double-check your typing when using sudo. Type "man sudo" for more information. To proceed, enter your password, or type Ctrl-C to abort. Password: Installing rEFInd on OS X.... Installing rEFInd to the partition mounted at // Copied rEFInd binary files Copying sample configuration file as refind.conf; edit this file to configure rEFInd. WARNING: If you have an Advanced Format disk, *DO NOT* attempt to check the bless status with 'bless --info', since this is known to cause disk corruption on some systems!! Installation has completed successfully. osx:refind-bin-0.8.3 mbp$
Kali Linux Partitioning Procedure
- Before we can install Kali Linux, there needs to be room on the hard disk. By booting into a live Kali session, we can resize the partition to our desired size. To do so, power on the device and immediately press and hold the Option key until you see the rEFInd boot menu.
2. When the boot menu appears, insert your chosen installation medium. If everything works as expected, you will see two volumes:
- EFI - EFI\BOOT\syslinux.efi from 61 MiB FAT volume
- Windows - Legacy OS from FAT volume
Although Kali Linux is based on Debian, Apple/rEFInd detects it as Windows. Select the Windows volume to continue.
- If you are using a DVD, you may need to refresh the menu by pressing ESC once the disk if fully spinning.
- If you still only see one volume (EFI), then the installation medium is not supported for your Apple device. If you haven’t already done so, you may wish to install rEFInd and try again.
- If you select the EFI volume, the booting will hang at this point and you will not be able to continue.
3. You should be greeted with the Kali Boot screen. Select Live and you should be booted into the Kali Linux default desktop.
4. We can use GParted to shrink the existing OSX partition (HFS+), allowing us to install Kali in the free space. You can find GParted in the Kali menu by navigating to: Applications -> System Tools -> GParted Partition Editor
5. Once GParted has opened, select your OSX partition. Depending on your system, it will usually be the second, larger partition. In our example, there are three partitions: the EFI upgrade partition (/dev/sda1), OSX (/dev/sda2), and System Recovery (/dev/sda3). Resize your OSX partition and leave enough space (20 GB minimum) for the Kali installation.
Kali Linux Installation Procedure
- To start the Kali Linux installation, repeat steps 1 and 2 above to boot to the Kali Linux boot screen. Once you can see the the boot screen, choose ‘Live’, ‘Graphical Install’ or ‘(Text-Mode) Install’ to begin the setup. In this guide, we chose ‘Graphical Install’.
2. Select your preferred language and then your country location. You’ll also be prompted to configure your keyboard with the appropriate keymap.
3. The installer will copy the image to your hard disk, probe your network interfaces, and then prompt you to enter a hostname then domain name for your system. In the example below, we’ve entered ‘kali’ as our hostname.
- If the setup detected multiple NICs, it may prompt you which one to use for installation.
- If the chosen NIC is 802.11 based, it will ask for wireless network information to collect, before prompting for a hostname.
- If there isn’t a DHCP service running on the network, it will ask you to manually enter the network information after probing for network interfaces.
- If Kali Linux doesn’t detect your NIC, you either need to include the drivers for it when prompted, or generate a custom Kali Linux ISO with them pre-included.
4. Enter a robust password for the root account.
5. Next, set your time zone.
6. The installer will now probe your disks and offer you five choices. In our example, we’re using the spare partition that we made during live mode, so we select ‘Guided - use the largest continuous free space’.
- Experienced users can use the ‘Manual’ option for more granular configuration options. This option will also allow you to set up encrypted LVM, so Kali Linux would be fully encrypted. The screen afterwards will prompt you for the password. You will have to enter the same password every time you start up Kali Linux.
Kali will automatically securely wipe the hard disk before asking for the password. This may take 'a while' (hours) depending on size and speed of the drive. If you wish to risk it, you can skip it.
7. The next stage is to select the partition structure you want to use. We will go ahead and use the default option and have everything on one partition. Afterwards it will display an overview. If you agree to what it suggests, press the continue button.
8. Next, you’ll have one last chance to review your disk configuration before the installer makes irreversible changes. After you click Continue, the installer will go to work and you’ll have an almost finished installation.
9. This screen configures the use of our Internet network mirrors. Kali can use our online central repository to distribute applications to keep packages up-to-date and allow for additional programs to be installed more easily. Should you need to enter any appropriate proxy information, the next screen will allow you to enter the required details.
If you select 'NO' in this screen, you will NOT be able to install packages from Kali repositories until you [alter your sources](/docs/general-use/kali-linux-sources-list-repositories).
10. Next, install GRUB bootloader.
11. Finally, click ‘Continue’ to finish installing Kali Linux. It is highly recommend that you restart your machine at this stage. Once complete, repeat the first 2 steps again to boot into ‘Live mode’ once more.
12. If the gdisk package isn’t included in your Kali Linux ISO, you will first need to install it. If you enabled the network repository during the setup, this can easily be done:
apt update apt install -y gdisk
We are now going to convert the Master Boot Record (MBR) to a hybrid, which will allow for Apple’s EFI to detect and boot using GRUB. Once complete, power off the device and remove any installation media when prompted.
root@kali:~# gdisk /dev/sda GPT fdisk (gdisk) version 0.8.5 Partition table scan: MBR: protective BSD: not present APM: not present GPT: present Found valid GPT with protective MBR; using GPT. Command (? for help): p Disk /dev/sda: 976773168 sectors, 465.8 GiB Logical sector size: 512 bytes Disk identifier (GUID): 1B3DB3D4-ECFD-47A1-9435-F2FF318C2F55 Partition table holds up to 128 entries First usable sector is 34, last usable sector is 976773134 Partitions will be aligned on 8-sector boundaries Total free space is 245 sectors (122.5 KiB) Number Start (sector) End (sector) Size Code Name 1 40 409639 200.0 MiB EF00 EFI System Partition 2 409640 548413439 261.3 GiB AF00 Macintosh 3 975503592 976773127 619.9 MiB AB00 Recovery HD 4 548413440 548415487 1024.0 KiB EF02 5 548415488 958138367 195.4 GiB 0700 6 958138368 975503359 8.3 GiB 8200 Command (? for help): r Recovery/transformation command (? for help): h WARNING! Hybrid MBRs are flaky and dangerous! If you decide not to use one, just hit the Enter key at the below prompt and your MBR partition table will be untouched. Type from one to three GPT partition numbers, separated by spaces, to be added to the hybrid MBR, in sequence: 5 Place EFI GPT (0xEE) partition first in MBR (good for GRUB)? (Y/N): y Creating entry for GPT partition #5 (MBR partition #2) Enter an MBR hex code (default 07): 83 Set the bootable flag? (Y/N): y Unused partition space(s) found. Use one to protect more partitions? (Y/N): n Recovery/transformation command (? for help): w Final checks complete. About to write GPT data. THIS WILL OVERWRITE EXISTING PARTITIONS!! Do you want to proceed? (Y/N): y OK; writing new GUID partition table (GPT) to /dev/sda. The operation has completed successfully. root@kali:~#
At this stage, we are able to use both Kali Linux and OSX and select which one we want to use at start up.
If you wish, you can alter rEFInd in various ways now, including:
- The default OS selection (by default it is OSX)
- Timeout value (by default it is 20 seconds)
- Direct boot into the default OS (Note, by pressing Options during boot, you will have a one time boot menu)
- Remove rEFInd, enabling the use of the traditional Apple menu (booting to OSX and Kali Linux will still work)
If you wish to make any of these alterations, boot into OSX, and alter the following file:
osx:~ mbp$ sudo nano /EFI/refind/refind.conf
- The timeout value controls how long you have to select an OS from the boot menu. By setting it to ‘-1’, it will boot directly into the default OS.
- The ‘default_selection’ value sets the default selection on startup. OSX will be at position ‘1’ and Kali will be at ‘2’. In this example, we will use OSX as the default.
If we combine the two alterations and save our changes, the next time we reboot, it will appear that nothing has changed from before installing Kali Linux. However, if we hold down the ‘Options’ key for the Apple boot menu, we will see the following:
- EFI Boot - OSX
- Windows - Kali Linux
- Recovery HD - OSX’s Recovery Partition
Using Apple's boot menu, the value names cannot be altered. If you wish to customize these values, you will need to use rEFInd.