Booting Debian with X11 on the Google NexusOne
This howto can also be found on my blog.
http://www.irregular-expression.com/?p=30
Screenshots here
http://picasaweb.google.com/JairunCaloth/Debian?feat=directlink
This is a method to boot into Debian via fastboot on the nexus one from
your SD-card. This is NOT a chroot Debian image, it is honest to goodness
Debian running directly on the hardware. This is completely non destructive to
the android OS. Connectivity to the device can be provided by adbd, ssh, or
serial console. Wifi works perfectly. I have not tested bluetooth. Touchscreen
works, but needs tweaking. X11 works in framebuffer using the Debian
testing branch (squeeze). In order to get a full fledged X driver with
3D acceleration we'll need the driver from
https://www.codeaurora.org/index.php?xwinp which I haven't been able to get
to build. This doesn't mean it's broken. It just means I suck
at cross compiling .
Todo:
-Tweak settings to make X more usable.
-Find out how to use the soft keys.
-Get the CodeAurora MSM/QSD X driver working.
-Find decent method to input text.
-Test bluetooth
-Look into using the GSM radio.
-Audio
-Figure out how to configure adbd.
-Get someone who knows C and wants to hack on the recovery image to enable booting debian from there.
This how-to pulls heavily from the debian-arm install guide.
http://www.debian.org/releases/stable/arm/index.html.en
Requirements:
adb (android-sdk)
fastboot
chroot (on your phone)
sdcard with room for Debian - 2gigs seems to be sufficient for Debian + xfce.
I Had about a gig leftover. For this guide, I'm starting fresh with a 4GB sdcard
that I'm devoting completely to Debian. According to the Debian install guide,
you need at least 32MB of memory and 500MB of hard disk space. The guide
recommends at least 5GB of storage for a comfortable install. But since I'm
using the lighter XFCE4 desktop I haven't had any space issues.
http://www.debian.org/releases/stable/arm/ch03s04.html.en
1. Re size the SD card
(don't forget to backup your data before you go messing with partition tables!!)
(optional) Instead of using a partition on your main SD card, you could
simply use another sdcard and dedicate the entire thing to Debian.
Note: android didn't like me very much when I did this. I put in a
tiny (30MB) vfat partition right at the beginning of the blank sdcard
I mounted the sdcard on my Ubuntu system and used gparted to break
off 2 gigs to use for Debian. Make sure you keep the normal android
sdcard partition as the first partition otherwise android
will not be able to find it.
If you're using apps to SD or anything else like that. Debian should
probably have the last partition. I'm not 100% sure on this since I
don't use my sdcard for anything else.
2. Format the new partition.
ext2 is probably best. (least abusive on the sdcard. ext3 & 4 have
journaling which may be bad for the life of your sdcard)
I used Gparted for this part as well.
3. If you are installing from an Ubuntu or Debian desktop, install debootstrap
Code:
$ sudo apt-get install debootstrap
Users of other distros may be able to get debootstrap but I'm not sure.
4. Mount the sdcard on your desktop.
anywhere will do just remember where you put it
ex.
Code:
$ mount /dev/sde2 /mnt/android
5. debootstrap
run debootstrap
you can change to a mirror closer to you if you don't want to use the
US mirror - http://www.debian.org/misc/README.mirrors
I'm using the Debian testing release (squeeze). I had issues getting
X11 running in lenny, and have not tested sid.
(lenny is stable, squeeze is testing, and sid is unstable)
http://www.debian.org/releases/
debootstrap --arch armel --foreign <release> </path/to/debian> <mirror>
ex:
Code:
# debootstrap --arch armel --foreign squeeze /mnt/android http://ftp.us.debian.org/debian
6. debootstrap(part2)
Unmount the sdcard from your desktop.
Reboot the phone here since you've been mucking with the sdcard
file system. Android didn't like my sdcard until I did.
Code:
$ adb shell
mount the sdcard somewhere on the android file system.
look in /dev/block for the sdcard.
Typically mmcblk0p# where # is the partition number.
*note* the directory I use to mount mine does not exist under normal android.
If this is your first time you will need to create the directory.
Code:
mkdir -p /data/local/mnt
ex.
Code:
# mount -t ext2 /dev/block/mmcblk0p2 /data/local/mnt
chroot/debootstrap
Code:
# export PATH=/usr/bin:/usr/sbin:/bin:$PATH
# chroot /data/local/mnt/ /debootstrap/debootstrap --second-stage
this will take a while especially if you have a slower sdcard.
6. While that's working, now is a good time to get to work on your kernel
I used the open source android kernel 2.6.29
http://android.git.kernel.org/
Started with mahimahi_defconfig and starting customizing from there.
Things to note.
- file systems - don't forget to add support for whatever file systems
you need. Your root file system support cannot be built as a module.
- wireless driver config - You may want to change the location the
kernel looks for your wifi firmware (this is different from the
kernel module).
I stuck mine in /etc/firmware, default is /system/etc/firmware.
If you don't change this, you will have to put the firmware
in /system/etc/firmware
- wireless - Add in support for standard wifi extensions.
- networking - standard tcp/ip stuff... iptables if you want ect...
- I wasn't able to get the kernel to boot into Debian until I turned
off initramfs support.
(note. this was before I discovered the 'noinitrd' kernel
kernel cmdline option. So disabling initrd may not be required)
- If for some reason you are using ext4, it will fail to mount unless
you add in large devices and files support
- Default kernel command string - has no effect.
This gets overwritten when you boot with fastboot or make a boot.img
- Drivers - I left all the normal android drivers in.
-Changed the firmware path for wifi.
-Added in support for virtual terminal under character devices
-Enabled MSM serial support (if you don't have a serial cable
this is useless to you)
-You can build the wifi driver into the kernel if you want.
Link to the kernel config I used. Use at your own risk.
It works for me but I can't promise it's perfect or even good.
http://irregular-expression.com/tmp/config
I would love input on building a better kernel config.
If you don't want to build your own kernel, feel free to use mine http://irregular-expression.com/tmp/zImage
7. Chroot and configure Debian.
There are still some things that need configuring before we reboot into
Debian. Since fbconsole does not appear to be working, if you don't
have a serial cable you will be flying blind until Debian is fully
booted and you can connect with ssh. Since there are still things to do
before we reboot, we're going to chroot into Debian just like if we are
using a Debian chroot image.
For more information and examples of config files.
http://www.debian.org/releases/stable/arm/apds03.html.en
It's probably best to use wifi for your data on the phone for this.
If you're on Linux and connected to the same router as the phone, copy
over your resolv.conf
Code:
$ adb push /etc/resolv.conf /data/local/mnt/etc/resolv.conf
If you are not in Linux or are not connected to wifi you will need to
set up resolv.conf with something sane.
ex. from jay freeman's original Debian chroot.
Code:
$ echo 'nameserver 4.2.2.2' > /data/local/mnt/etc/resolv.conf
push wifi driver to the device
First we need to create a couple directories. Log into the phone with adb shell
Code:
$ adb shell
# mkdir -p /data/local/mnt/etc/firmware
# mkdir -p /data/local/mnt/lib/modules/2.6.29-droid-debian/kernel/drivers/bcm4329
# exit
Upload wifi kernel module and firmware. If you're using my prebuilt kernel, grab this one. http://irregular-expression.com/tmp/bcm4329.ko
Code:
$ adb push <kernelroot>/drivers/net/wireless/bcm4329/bcm4329.ko /data/local/mnt/lib/modules/2.6.29-droid-debian/kernel/drivers/bcm4329/
copy /system/etc/firmware/fw_bcm4329.bin to wherever you
specified in the kernel config.
Code:
# cp /system/etc/firmware/fw_bcm4329.bin /data/local/mnt/etc/firmware/
Setup environment variables, copy over adbd, and other stuff needed to
make things work. This should all be run from within an adb shell
Code:
# cp /sbin/adbd /data/local/mnt/sbin/adbd
# sysctl -w net.ipv4.ip_forward=1
# export PATH=/usr/bin:/usr/sbin:/bin:$PATH
# export TERM=linux
# export HOME=/root
Next chroot and setup mount points
Code:
# chroot /data/local/mnt /bin/bash
# mount -t devpts devpts /dev/pts
# mount -t proc proc /proc
# mount -t sysfs sysfs /sys
Welcome to Debian chroot that we all know and love.
Lets finish configuring this thing.
Configure adbd to run on boot and create a symlink so adbd can find bash.
Edit /etc/rc.local. Add adbd before exit 0
#add this to /etc/rc.local
Code:
/sbin/adbd &
Code:
# mkdir -p /system/bin/
# ln -s /bin/bash /system/bin/sh
Now we need to be able to install packages
don't forget if you are not using squeeze to change it here
Code:
# echo 'deb [url]http://ftp.us.debian.org/debian[/url] squeeze main' >> /etc/apt/sources.list
# apt-get update
You should see aptitude updating it's package list.
Install some needed packages
Code:
# apt-get install wpasupplicant wireless-tools udev ssh
Other packages
All up to your choice. Things like text editors, X, ect...
some suggested packages
Code:
# apt-get install locales vi
Wifi driver
When you try to load the wifi module, Linux will complain about not
being able to parse modprobe.d. To fix this run depmod. If it complains
a directory doesn't exist then create it.
Code:
# depmod -a
Edit /etc/modules and add the bcm4329 module
Code:
# /etc/modules: kernel modules to load at boot time.
#
# This file contains the names of kernel modules that should be loaded
# at boot time, one per line. Lines beginning with "#" are ignored.
# Parameters can be specified after the module name.
bcm4329
Setup fstab - critical: don't forget to configure the root file system
or your system won't boot. If you like, mount your vfat sdcard partition
here too. Don't forget to mkdir for the mount point.
*note* after boot the memory card is located at /dev/mmcblk0p#.
Here is my /etc/fstab
Code:
# /etc/fstab: static file system information.
#
# file system mount point type options dump pass
/dev/mmcblk0p2 / ext2 defaults 1 1
proc /proc proc defaults 0 0
/dev/mmcblk0p1 /media/sdcard vfat defaults 0 0
configure network
These two files will be tuned to what you need.
Here are a couple examples.
/etc/network/interfaces
Code:
auto lo
iface lo inet loopback
auto eth0
iface eth0 inet dhcp
wpa-driver wext
wpa-conf /etc/wpa_supplicant.conf
/etc/wpa_supplicant.conf
Code:
ctrl_interface=/var/run/wpa_supplicant
network={
ssid="myOpenNetwork"
scan_ssid=1
key_mgmt=NONE
}
network={
ssid="MyHomeNetwork"
scan_ssid=1
key_mgmt=WPA-PSK
psk="MyWifiPassword"
}
network={
ssid="MyFriendsWifi"
scan_ssid=1
key_mgmt=WPA-PSK
psk="MyFriendsWifiPassword"
}
SSH
If you want ssh to start on boot run this command.
*note* You will probably want to set a static IP address if you plan on accessing debian through ssh.
Code:
# update-rc.d ssh defaults
inittab
no need for getty so comment it out in /etc/inittab
if you have a serial cable, configure it here. something like this.
Code:
T0:23:respawn:/sbin/getty -L ttyMSM0 115200 linux
hostname
configure your system's hostname - you can set this to whatever you like
Code:
# echo DebianHostName > /etc/hostname
Set root password
Code:
# passwd
# useradd -m -G audio,dialout,floppy,video,staff username
Add user account
Code:
# useradd -m -G audio,dialout,floppy,video,staff yourusername -s /bin/bash
# passwd yourusername
8. Almost there!
Double check your configs and have your kernel handy.
The next step is to boot into Debian.
9. Boot Debian
put the device into fastboot mode
Code:
$ adb reboot bootloader
the '-c' flag specifies arguments to pass to the kernel for boot.
This is probably the bare minimum.
Format is "fastboot -c 'kernelcmdline' boot zImage"
Code:
$ fastboot -c 'root=/dev/mmcblk0p2 rw rootfs=ext2 init=/sbin/init rootwait noinitrd' boot zImage
Wait just a few minutes. DHCP is probably the longest part of this.
10. Connect via ADB.
If everything went well you should be able to log into the
phone via adb. adb push and pull work as well.
Code:
$ adb shell
11. Install X11
For a basic X11 install. This is probably not what you want.
Code:
# apt-get install xserver-xorg
You can install whatever window manager/desktop environment you like,
I used XFCE. Most window managers likely depend on xserver-xorg so it
will get pulled in when you install.
Code:
# apt-get install xfce4
After I installed xfce4 I was able to get X on the main display by
simply running startxfce4
Code:
# startxfce4
By default Debian is configured to only allow root to startx.
If you want to be able to run X as a user edit /etc/X11/Xwrapper.config
*note* even with this I haven't been able to run X as a normal user.
Only root.
Change
Code:
allowed_users=console
to
Code:
allowed_users=anybody
Currently touchscreen is a little weird. It feels almost like using a
laptop touchpad. The mouse moves much faster then your finger and tapping for
click isn't enabled by default but two finger tap will right click. You can
also move the mouse with the trackball. Clicking the trackball registers a
click. But you have to wiggle the trackball just a tiny bit after you click to
make it register. I am going to work on tweaking the fdi policy files to
make things a little more usable.
Text entry is a bit of a pain point currently. There are several on screen
keyboards out there. One interesting one I found is called cellwriter.
The touchscreen will need to be tweaked before it will work well with
onscreen keyboards.
For other ideas on window managers and other software check out this link
http://wiki.openmoko.org/wiki/Debian
@jairuncaloth
I was just reading about how you got debian + x11 working on your nexus. I think thats awsome how you got a fully oprerational linux OS on your phone. I just had a few questions on how everything worked.
You were saying it doesn't mess with the default android OS, is there like a duel boot option to chose what OS i want to boot into. I was reading on how you have to start an ssh session to get into debian, and was just currious on some more info. I would be intrested in trying this out some time after i did a little more reading to get a better understanding of how everything was working.
If this wasn't working out after i installed, is it a pain to remove.
Thanks,
Justin
Nice post, appreciate the thoroughness.
I'm going to pour through this when I get some free time. Whenever that is
Thanks!
~enom~
jjkwasnik said:
@jairuncaloth
I was just reading about how you got debian + x11 working on your nexus. I think thats awsome how you got a fully oprerational linux OS on your phone. I just had a few questions on how everything worked.
You were saying it doesn't mess with the default android OS, is there like a duel boot option to chose what OS i want to boot into. I was reading on how you have to start an ssh session to get into debian, and was just currious on some more info. I would be intrested in trying this out some time after i did a little more reading to get a better understanding of how everything was working.
If this wasn't working out after i installed, is it a pain to remove.
Thanks,
Justin
Click to expand...
Click to collapse
Hey Justin. The reason it doesn't mess with the default android OS is when you boot, you're booting with a kernel image living on your desktop/laptop's hard disk. fastboot allows you to boot images without acctually flashing them to your phone. Debian lives on the SDcard so no flashing required.
You can also use adb to connect to debian now. It's as simple as copying over the binary from android.
Removing is as simple as rebooting. When you reboot it will be like debian was never there.
enomther said:
Nice post, appreciate the thoroughness.
I'm going to pour through this when I get some free time. Whenever that is
Thanks!
~enom~
Click to expand...
Click to collapse
I would love to hear ideas for improvements you may have
This is still pretty raw.
now my question is can those devs good with the linux kernel use this to hack into the android OS and unlock the security on the device without bricking the phone?
-Charlie
@jairuncaloth
I understand what you mean, i have used fast boot a few times. I know how to use it, just haven't used it a lot. So with using fast boot, once Debian is booted can you disconnect the usb cable. Is the kernel copied in RAM, or does it still need to talk to the kernel that resides on the PC?
I like where you are going with this, i am experienced with Linux. Not super advanced, but i know more then i think i do sometimes. I would like to try this out sometime to, but i'm very busy with work and the little free time i have gets spent before i know it. So knowing a little about it before i get my feet wet, always helps.
Thanks!!
Great news guys! Glad to see progress is being made. Can't wait to see where this goes from here!
Cheers
this is so cool, i was trying to get the chroot version to run on my nexus one the other day like i had it on my g1 but it was giving me trouble so i gave up. if proper support for the radio and the touchscreen/keyboard is created this would truly be monumental.
kudos for you man awesome job!
jjkwasnik said:
@jairuncaloth
I understand what you mean, i have used fast boot a few times. I know how to use it, just haven't used it a lot. So with using fast boot, once Debian is booted can you disconnect the usb cable. Is the kernel copied in RAM, or does it still need to talk to the kernel that resides on the PC?
I like where you are going with this, i am experienced with Linux. Not super advanced, but i know more then i think i do sometimes. I would like to try this out sometime to, but i'm very busy with work and the little free time i have gets spent before i know it. So knowing a little about it before i get my feet wet, always helps.
Thanks!!
Click to expand...
Click to collapse
Should look something like this after you run the fastboot boot command
creating boot image...
creating boot image - 2240512 bytes
downloading 'boot.img'... OKAY
booting... OKAY
At this point it's safe to pull the usb cable. If you are using adb to connect, you'll still want it though
I got the code aurora X driver to build last night. I ended up building it in debian on the phone. I couldn't get it to build against AOSP kernel headers, but it does build with the code aurora kernel headers. X won't start when you tell it to use the driver. I suspect this is because I built the driver against a different kernel then the one the system is booting on. I have not been able to get the code aurora kernel to boot yet, but I'm working on it to see if X will start with this driver and the CA kernel.
Also, I've uploaded the kernel I've been using to my blog. In case someone wants to play with this, but doesn't want to build a kernel.
http://irregular-expression.com/tmp/zImage
Can anyone post any vids for this?
Would love to have a look at this and then maybe i'll have a try at it afterwards
No videos yet.. I've got some snapshots of X running though.
http://picasaweb.google.com/JairunCaloth/Debian?feat=directlink
jairuncaloth said:
No videos yet.. I've got some snapshots of X running though.
http://picasaweb.google.com/JairunCaloth/Debian?feat=directlink
Click to expand...
Click to collapse
Thank you for the pictures, it really feels good to see this kind of progress being made. I can not wait to try this out!
looks interesting, but scary to a new guy like me..im sure i will try it though..continue the work on streamlining the process !
so how is this running? by that i mean is everything running smooth/snappy?
looks good by the way, i may try this out
JHaste said:
so how is this running? by that i mean is everything running smooth/snappy?
looks good by the way, i may try this out
Click to expand...
Click to collapse
It's fast enough for you old man!
Really though, it runs pretty smoothly. Once we work out the kinks it could even be pretty nice.
One thing you could do, if you don't mind nuking the recovery partition, is flash your debian boot image to recovery -- then you can reboot into debian with "reboot recovery" from an android root shell, or by entering the bootloader and selecting recovery.
it will be great if it is more simple.
@jairuncaloth
I love the pics man!!!
I just came up with another question with running Debian, is there any software to still make phone calls through your cell provider? Or do you just have to reboot back into android?
O.k. I've tried the Linux forums ad so now I thought I would try here. I'm trying to install the Android SDK in Linux Mint 11 but I don't have the 32-bit libraries installed. Does anyone know how to install these libraries and the SDK? After that I think I can handle it from there.
Any help would be greatly appreciated.
http://developer.android.com/sdk/installing.html
For your 32-bit libs, see the Troubleshooting section.
I think that linux Mint is a ubuntu derivative, so the info is on here:
http://developer.android.com/sdk/installing.html
http://source.android.com/source/initializing.html
Here's the summary for the command line freaks (assuming that linux mint also uses apt-get/ubuntu packages- I haven't had the pleasure of installing linux mint (yet) so I can't say fo' sho')
$ sudo add-apt-repository "deb http://archive.canonical.com/ lucid partner" (natty might work here too)
$ sudo apt-get update
$ sudo apt-get install sun-java6-jdk ia32-libs
download the linux sdk and untar - "tar xf android-sdk_...blah...blah...just hit tab for the command line completion....tgz"
Then cd into the android_sdk/tools folder and type "./android update sdk --no-ui"
then kick back and watch the magic happen. It will then download all the images files for every version of android from cupcake to the T2000. It might take a few hours, depending on your download speed.
Well for today here is the next part of the puzzle. My recovery uses sgdisk over parted - well why? because its newer, it is scriptable from the shell, and does not have annoying msftres tags on my partitions and whats more because I can
Build a static sgdisk so that we can manipulate GPT partitions on the Nook
via a script
- check the existing parted - its not OK, scripted does not work
- try updated parted-3.1 - I am not able to build a fully static executable,
but the program works fine for manipulating Nook partitions on the PC
# This is an approximate record of how I built sgdisk for
# my android recovery disk
# I used fedora 15 for arm running on a sheevaplug
# I suppose you could at a pinch do this even on debian or arch or ubuntu on a qemu too but I dont know how
# most of the following commands are cut and pasted from my bash history
# so you may need to read between the lines to get the directories etc
# also note that the sheevaplug is using soft float while arm7 on android
# is usually hard float
2 How I did it
started with
rpm -ivh gptfdisk-0.8.4-1.src.rpm
rpm -ivh util-linux-2.21.1-1.fc17.src.rpm
rpm -ivh popt-1.13-10.fc17.src.rpm
get those sources from fedora-17
rpmbuild -bp --nodeps popt.spec
rpmbuild -bp --nodeps util-linux.spec
rpmbuild -bp --nodeps gptfdisk-0.8.4.spec
cd ../BUILD/popt-1.13/
./configure --help
./configure
sudo yum --disablerepo=\* --enablerepo=lf15 --enablerepo=sf15 install gettext-devel
./configure
make
ls -latr
cp .libs/libpopt.a ../gptfdisk-0.8.4/
cd ../util-linux-2.21.1/
./configure
./configure --without-ncurses
cd libuuid/
make
cp src/.libs/libuuid.a ../../gptfdisk-0.8.4/
cd ../../gptfdisk-0.8.4/
vim Makefile
# I will generate a diff for this bit
sudo yum --disablerepo=\* --enablerepo=lf15 --enablerepo=sf15 install libuuid-devel
sudo yum --disablerepo=\* --enablerepo=lf15 --enablerepo=sf15 install libstdc++ libstdc++-static
sudo yum --disablerepo=\* --enablerepo=lf15 --enablerepo=sf15 install popt-devel
make clean
make gdisk sgdisk
ldd gdisk sgdisk
file sgdisk gdisk
and bang my static binaries!
THIS WORKS FOR ME, TEST IT OUT ON EMPTY USBDISKS and sparse files first
The challenge for the next guy working on this is to use ndk to build so that we can eliminate the fat static glibc & lbstdc++ from fedora 1.5MB binaries are OK for the Nook but for other devices it may be too much
http://dl.dropbox.com/u/64885133/android-recovery-disk-sgdisk.tar.bz2
Sweet man!!! Thank you so much, this will come in handy a lot.
Used these before an all praise to the op, but the db link is not working. Use http://d-h.st/users/meghd00t/?fld_id=5334#files
Don't need to be a genius to follow OPs files, but wanted to point out. Need gdisk as busybox fdisk never seems to work for me.
Thanks for making this.
Using it on the nexus 5 and used it before on the SIII i9300
Any chance to re-upload this gdisk and sgdisk static binary ?
To my surprise, finding binary of gdisk and sgdisk for Android on Internet seems to be pretty difficult. Is it possible to re-upload it, so that I can proceed with resurecting my (still rocking) Nexus 7 ?
wangdaning said:
Used these before an all praise to the op, but the db link is not working. Use http://devhost.xda-developers.com/users/meghd00t/?fld_id=5334#files
Don't need to be a genius to follow OPs files, but wanted to point out. Need gdisk as busybox fdisk never seems to work for me.
Thanks for making this.
Using it on the nexus 5 and used it before on the SIII i9300
Click to expand...
Click to collapse
@wangdaning - please provide Android binary for gdisk (sgdisk) utility.
burlik said:
@wangdaning - please provide Android binary for gdisk (sgdisk) utility.
Click to expand...
Click to collapse
Internet is bad, cannot attach to xda. I uploaded them to github here:
https://github.com/wangdaning/Static-Disk-Tools
The files are from 2012 and I have not used them for ages. I now you need to put them in the /xbin or /sbin directory and change permissions, but I cannot remember exactly.
Not really a whole lot to describe here. simg2img and make_ext4fs are both linux binaries that are used to unpack / mount / repack system.img from a stock tar.md5 rom. Quite useful.
I get curious as to how much development stuff I can do with OS X from time to time, as, though they are not twins by any means, linux and darwin are definitely cousins. Obviously the simg2img and make_ext4fs binaries in their normal state won't work on any darwin system (os x), however, they ARE unix binaries, and darwin is well... unix
So I downloaded the source code and compiled natively on OS X using xcode / gcc. When compile is done (didn't take long) dropped in /bin and.. viola! Works perfectly.
For those who want a tutorial on how to use these binaries, check here.
To mount sys.raw:
install either macports or homebrew. Then:
Macports: $ sudo port install ext4fuse
Homebrew: $ brew install ext4fuse
After which, cd to the directory you created sys.raw using simg2img.
$ mkdir sys
then, mount with:
$ ext4fuse sys.raw sys
and viola! it's now mounted and you can do what you will with /system
Download links:
simg2img: download
make_ext4fs: download
Homebrew: OS X package manager
just added instructions for mounting sys.raw
To all who do anything development related on Mac OS X / Darwin; let me know if there's any other linux binaries you'd like ported, I feel like doing some more cross-compiling but I can't think of a project.
So awesome
This is awesome. Awesome, awesome, awesome. I just wish there was a better collection of tools because I tried everything (on my Mac), with every single other OS available, just to open a stock Galaxy Note 4 image.
Just one thing though ...
I mounted 'sys' and I don't know what happened but suddenly it unmounted and now the 'sys' folder has disappeared from view ... though I can still see it if I "ls" in its parent directory.
So I tried to 'mkdir sys' again, it says it can't. It also says that "'sys' is taken" if I try to recreate the folder ... I can create a different folder with a different name, but 'sys' is a weird hidden directory now that I can only see in the terminal/shell.
...
Guess I'll reboot.
Rebooting solved the problem and stopped whatever mounting process had been started. But it keeps happening and I can't figure out a way to kill the mount/unmount without restarting my whole Mac ... hmmm ...
Hi there,
great tool for us on OS X, however when I try to build the android image from mounted folder I get this:
can't set android permissions - built without android support
any solution?