User:NicolasD
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Contents
Truc utile
GRUB sur clé USB
Voici une petite astuce pour :
- ne plus perdre GRUB lors de la réinstallation de Windows
- ne plus avoir accès à Windows après l'installation de Linux
- rendre inaccessible la partition Linux sur votre machine
L'astuce est d'installer que GRUB sur une clé USB. Attention, l'ordre des actions est important
- Formater la cle USB en fat32 (gparted)
- Récupérer la liste des disques monter ainsi que leur ID
$ sudo blkid /dev/sda1: UUID="CC5C86435C862872" TYPE="ntfs" /dev/sda5: UUID="aad30bf1-d620-4244-9fb5-42f4a38075fb" TYPE="ext3" /dev/sda6: TYPE="swap" UUID="e3163bab-1fcc-4bcd-844d-7dcabc35015c" /dev/sdb1: UUID="4C9D-547F" TYPE="vfat"
- installer Grub sur la clé USB
$ grub-install --no-floppy --root-directory=/media/disk /dev/sdb1 (remplacer sdb1 par la valeur récupérée avec la commande précédente)
- demonter le disque USB
$ sudo umount /media/disk
- Installer le MBR
$ sudo install-mbr /dev/sdb1
- Mettre le flag boot sur la clé USB (gparted)
make gconfig
Installer les bibliothèques pour lancer make gconfig
sudo apt-get install libgtk2.0-dev libglib2.0-dev libglade2-dev
Banc à sable
Ce qui suit n'est qu'un brouillon avec les fautes de frappes et d'orthographes comme il se doit.
Prerequisites for Linux installation
Install needed software packages
- Install these package for build the kernel image and for format the mmc/µSD card
$ sudo apt-get install uboot-mkimage mtd-utils
Update the environment variables
Theses environment variables install the Android and Armadeus folder in our home directory, but of course, it can be placed anywhere!
export ANDROID_SOURCE=~/apf27droid export ANDROID_SDK=~/android-sdk-linux_x86-1.5_r3 export ARMADEUS=~/armadeus-3.1 export PATH=${PATH}:${ANDROID_SDK}/tools:${ANDROID_SOURCE}/bin
Construction of Android environment
Download Android source
The getting Android source document describes how to set up our local work environment.
Follow theses instructions until Installing Repo chapter.
$ mkdir ANDROID_SOURCE $ cd $ANDROID_SOURCE $ mkdir bin $ curl http://android.git.kernel.org/repo >$ANDROID_SOURCE/bin/repo $ chmod a+x $ANDROID_SOURCE/bin/repo $ repo init -u git://android.git.kernel.org/platform/manifest.git -b android-sdk-1.5_r3 $ repo sync
Since android-sdk-1.5_r3 branch, the Linux kernel isn't with the Android source, We can download it in a compress archive (tar.gz) file with this android-kernel-2.6.29 (about (70Mib) or with git repository (more 300Mib)
$ mkdir $ANDROID_SOURCE/kernel $ cd $ANDROID_SOURCE/kernel $ git clone git://android.git.kernel.org/kernel/common.git android-2.6.29
Apply the Armadeus patchset
Before compiling the kernel, we patch the source with the Armadeus patches. In second time, I will give the URL to retrieve Linux 2.6.29.4 patch.
$ $ARMADEUS/buildroot/toolchain/patch-kernel.sh $ANDROID_SOURCE/kernel $ARMADEUS/downloads patch-2.6.29.4.bz2 $ $ARMADEUS/buildroot/toolchain/patch-kernel.sh $ANDROID_SOURCE/kernel $ARMADEUS/buildroot/toolchain/kernel-headers linux-2.6.29.4-\*.patch{,.gz,.bz2} $ $ARMADEUS/buildroot/toolchain/patch-kernel.sh $ANDROID_SOURCE/kernel $ARMADEUS/buildroot/target/device/armadeus/linux/kernel-patches/2.6.29.4 \*.patch{,.gz,.bz2} $ mkdir $ANDROID_SOURCE/kernel/drivers/armadeus $ cp -r $ARMADEUS/target/linux/modules/* $ANDROID_SOURCE/kernel/drivers/armadeus $ cp $ARMADEUS/target/device/armadeus/apf27/apf27-linux-2.6.29.config $ANDROID_SOURCE/kernel/arch/arm/configs/apf27_android_defconfig
Battery patch
At the beginning, reboot happened over again even though Android logo appeared on board. Result of investigation, we found that battery power was returned with 0 when boot.. To complete!!!
Android kernel configuration (2.6.29)
Make sure your kernel boots normally on your board. Then enable some Android specific configuration and make sure that your kernel still boots (with your standard file system).
- EABI
CONFIG_AEABI=y # CONFIG_OABI_COMPAT is not set
- THUMB
CONFIG_ARM_THUMB=y
- Android drivers
# Android # CONFIG_ANDROID=y CONFIG_ANDROID_BINDER_IPC=y CONFIG_ANDROID_LOGGER=y # CONFIG_ANDROID_RAM_CONSOLE is not set CONFIG_ANDROID_TIMED_OUTPUT=y CONFIG_ANDROID_LOW_MEMORY_KILLER=y
compile Android kernel
$ cd $ANDROID_SOURCE/kernel $ make ARCH=arm mrproper $ make ARCH=arm apf27_android_defconfig $ make ARCH=arm CROSS_COMPILE=../prebuilt/linux-x86/toolchain/arm-eabi-4.2.1/bin/arm-eabi- uImage $ cp ./arch/arm/boot/uImage $TFTPBOOT/apf27-linux.bin
Making SD card for boot
Copying the Android root filesystem
Android’s root file system is generated in $ANDROID_SOURCE/out/target/product/generic
$ cd $ANDROID_SOURCE/out/target/product/generic $ mkdir $ANDROID_SOURCE/rootfs (or '$ sudo rm -rf $ANDROID_SOURCE/rootfs/*' if the folder already exist ) $ cp -a root/* $ANDROID_SOURCE/rootfs/ $ cp -a system/* $ANDROID_SOURCE/rootfs/system/ $ cd $ANDROID_SOURCE/rootfs $ sudo chown -R root.root . $ sudo chmod -R a+rwX data system
Change init.rc
Open $ANDROID_SOURCE/system/core/rootdir and comment the 'mount yaffs2' lines like this:
... # mount mtd partitions # Mount /system rw first to give the filesystem a chance to save a checkpoint # mount yaffs2 mtd@system /system # mount yaffs2 mtd@system /system ro remount # We chown/chmod /data again so because mount is run as root + defaults # mount yaffs2 mtd@userdata /data nosuid nodev chown system system /data chmod 0771 /data # Same reason as /data above # mount yaffs2 mtd@cache /cache nosuid nodev chown system cache /cache chmod 0770 /cache # This may have been created by the recovery system with odd permissions chown system system /cache/recovery chmod 0770 /cache/recovery ...
Formatting an MMC/SD card
We will create two partitions on our mmc/µSD card, The first one will use for Android memory card, the second one will use for Android file system. First connect your card reader to your workstation, with the mmc/µSD card inside. Type the dmesg command to see which device is used by your workstation. Let’s assume that this device is /dev/sdb
$ dmesg ... [ 9145.613954] sdb: sdb1 sdb2 [ 9145.615125] sd 10:0:0:0: [sdc] Attached SCSI removable disk [ 9145.615258] sd 10:0:0:0: Attached scsi generic sg3 type 0
Type the mount command to check your currently mounted partitions. If MMC/SD partitions are mounted, unmount them.
In a terminal edit partitions with fdisk:
sudo fdisk /dev/sdb
Delete any existing partition with the d command.
Now, create the boot partition:
Command (m for help): n Command action e extended p primary partition (1-4) p Partition number (1-4): 1 First cylinder (1-495, default 1): 1 Last cylinder, +cylinders or +size{K,M,G} (1-239, default 239): +1G
Change its type to FAT32:
Command (m for help): t Selected partition 1 Hex code (type L to list codes): c Changed system type of partition 1 to c (W95 FAT32 (LBA))
Using the n command again, create a second partition filling up the rest of your card (just accept default values).
Now, format the partitions in your card:
sudo mkfs.vfat -n MemoryCard -F 32 /dev/sdb1 sudo mkfs.ext2 -L AndroidFS /dev/sdb2
Remove and insert your card again. Your new partitions should be mounted automatically.
Copying data to the MMC/SD card
Now copy the Android root filesystem to the second partition.
sudo rsync -a $ANDROID_SOURCE/rootfs/ /media/AndroidFS/
Finish by unmounting your mmc/µSD partitions:
sudo umount /media/MemoryCard sudo umount /media/AndroidFS
Boot setup
The last thing left to do is to specify how the board boots Linux.
In the U-boot prompt, make the mmc boot is on second partition of the mmc/µSD card
# setenv mmcroot '/dev/mmcblk0p2 rw'
Now set the kernel command line arguments
# setenv addmmcargs 'setenv bootargs ${bootargs} root=${mmcroot} rootfstype=${mmcrootfstype} init=\init androidboot.console=ttyS0' # saveenvmtd-utils
Debug
# mount /dev/mmcblk0p2 /mnt/mmc # strace -f -ff -tt -s 200 chroot /mnt/mmc /init androidboot.console=ttyS0 # strace chroot /mnt/mmc /init androidboot.console=ttyS0
Test with Android emulator
$ make ARCH=arm goldfish_defconfig $ make ARCH=arm CROSS_COMPILE=../prebuilt/linux-x86/toolchain/arm-eabi-4.2.1/bin/arm-eabi # créer des AVD (Android Virtual Device) $ ~/dev/android-sdk-linux_x86-1.5_r3/tools/android create avd -n APF27-H -t 2 -s 272x480 $ ~/dev/android-sdk-linux_x86-1.5_r3/tools/android create avd -n APF27-L -t 2 -s 480x272 $ $ANDROID/out/host/linux-x86/bin/emulator -avd APF27-H -sysdir $ANDROID/out/target/product/generic/ -kernel $ANDROID/kernel/arch/arm/boot/zImage -data $ANDROID/out/target/product/generic/userdata.img -ramdisk $ANDROID/out/target/product/generic/ramdisk.img -system $ANDROID/out/target/product/generic/system.img
Android Root File system
Android emulator has 3 basic images on tools/lib/images directory.
- ramdisk.img is gziped cpio archive. ramdisk.img is a small partition image that is mounted read-only by the kernel at boot time. It only contains /init and a few config files. It is used to start init which will mount the rest of the system images properly and run the init procedure. A Ramdisk is a standard Linux feature. It is made just for the Android and do special things to start up the Android system.
- system.img is a partition image that will be mounted as / and thus contains all system binaries.
- userdata.img is a partition image that can be mounted as /data and thus contains all application-specific and user-specific data.
/system directory has libraries and default system packages (*.apk). /data directory has timezone, cache, and ApiDemos.apk package.
The main services are zygote(/system/bin/app_process), runtime(/system/bin/runtime), and dbus(/system/bin/dbus-daemon). You can see the /etc/init.rc file on the Android ramdisk image.
... zygote { exec /system/bin/app_process args { 0 -Xzygote 1 /system/bin 2 --zygote } autostart 1 } runtime { exec /system/bin/runtime autostart 1 } ... dbus { exec /system/bin/dbus-daemon args.0 --system args.1 --nofork autostart 1 } ...