The success's road

The success's road Bootloaders www.farsight.com.cn

What is bootloader? • Bootloader • It is just the component that boots a device and launches the main software • Monitor • In addition to booting capabilities, it provides a command-line interface that can be used for debugging, reading/writing memory, flash reprogramming, configuring, etc. • Usually we can refer to both types of software as "bootloaders“ • Note: Linux bootloader is a part of zImage which can decompress kernel image and start up.

Bootloaders for Linux • Setting up bootloader is a task common to allLinux systems • It is a special task for embedded Linux systems • Completely different bootloaders • PPC and x86 have well known and establishedbootloaders • Other architectures have few or no standardbootloaders • Relied on bootloaders provided by HW manufacture • Open Source or Commercial bootloaders

Open-Source Bootloaders

x86 Bootloaders • There are 2 main bootloaders used for x86: LILO and GRUB • LILO: http://brun.dyndns.org/pub/linux/lilo/ • GRUB: http://www.gnu.org/software/grub/ • The Makefiles of LILO and GRUB are not built to allow cross-compilation. An x86-based host is most required • Other bootloaders: Rolo, EtherBoot, LinuxBIOS • Less known bootloaders • Using under certain circumstances

ARM Bootloaders • U-Boot is becoming the standard ARM bootloader • Armboot merged into ppcboot and become u-boot • Support arm720, arm920, arm926, sa1100, xscale • http://armboot.sourceforge.net/ • Blob • blob was introduced as the bootloader for the LART hardware project • blob has been ported to many other ARM-based systems • http://www.lart.tudelft.nl/lartware/blob • Redboot can support

PowerPC Bootloaders • U-boot is a main bootloader for PowerPC • Ppcboot is the former of u-boot • Can support tens of PowerPC boards. • Support PPC 4xx, 5xx, 8xx, 82xx, 7xx, 74xx… • OpenBIOS • The free software of IEEE 1275-1994 compatible firmware • Support some IBM PPC405 boards. • Redboot can support

MIPS Bootloaders • YAMON • A standard bootloader for MIPS-based embedded Linux systems • A free software of MIPS company • Support most of MIPS systems • PMON • may be useful as an initial codebase • need to port it to your target before using it • U-boot and Redboot can support

Others • SuperH • sh-boot is the main bootloader for SH-based embedded Linux systems • Redhat can support • M68K • Redhat can support • No standard bootloader

Commercial bootloaders • Board manufacturer can provide • Source code for development board • Binary for OEM board • Usually it is confidential to customers. • You can get support and documentation.

Booting from Network • Setting up a target for network boot is ideal during the early stages of development • The simplest way to boot your target from the network is to use : • BOOTP/DHCP /etc/dhcpd.conf # /etc/init.d/dhcpd start • TFTP /etc/xinetd.d/tftp # /etc/init.d/xinetd restart • NFS /etc/exports # /etc/init.d/nfs start

Booting from disk devices • Disk devices • IDE hard disks • SCSI disks • Compact Flash • Disk On Chip • USB storage • They are in common use on most X86 systems • Vmlinuz is placed in /boot • Boot with lilo or grub • Patch is needed for DOC

Booting from Flash Memory • NOR Flash • Random access Flash memory • Bootloader is located at bottom or top end of the FLASH. • NAND Flash • Not random access flash memory • Bootloader can copy itself and zImage into ram and run. • Usually bootloader is very little. • MTD device drivers can support NOR and NAND flash.

RedBoot • RedBoot was originally for booting eCos,which now is licensed through GPL • RedBoot is a open-sourcebootloader that supports all architectures • It is fairly well documented • http://sources.redhat.com/redboot/ • We don’t talk about Redboot in detail here.

U-boot Overview • Wolfgang Denk, DENX Software Engineering • Free Software, GNU General Public License • Start from PPCboot project, create ARMBoot Project, then create U-boot Project. • http://sourceforge.net/projects/u-boot • http://lists.sourceforge.net/lists/listinfo/u-boot-users/ • http://www.denx.de/re/DPLG.html

U-boot Overview • U-Boot can be installed in a boot ROM and used to initialize and test the hardware or to download and run application code. • U-Boot aims at becoming the standard bootloader • The richest, most flexible, and most activelydeveloped open-source bootloader • Supports 100 different PPC-based boards, more thana dozen ARM-based boards, a handful of x86-based boards, and more… • Capable of booting a kernel through TFTP, from an IDE or SCSI disk, and from a DOC

U-boot README • The README file included with the package, for example, covers the use of U-Boot extensively. • Among other things, it discusses the package's source code layout, the available build options, U-Boot's command set, and the typical environment variables used in U-Boot. • In the following, I will cover the essential aspects of U-Boot and provide practical examples of its use

Source Code Analysis • Platform dependence • board, cpu, lib_ppc, lib_arm, include… • Platform independence • common, net, fs, drivers… • Tools and Documentation • tools, doc

Booting with U-Boot • U-Boot is properly installed on your target and connected through a serial line. • Boot message can output to serial terminal emulator. • Use help command to understand more u-boot commands =>help =>help cp • U-Boot is strict in its argument parsing. It expects most values to be provided in hexadecimal form • U-Boot accepts any unique subset of characters that starts a command name

Using Environment Variables • To view the current values of the environment variables =>printenv • Configure common variables, their meaning are discussed in README. =>setenv ipaddr 192.168.1.100 =>setenv serverip 192.168.1.1 =>setenv kernel_addr 40000 • Add new variable =>setenv nfscmd “bootm \$(kernel_addr) ” =>printenv nfscmd nfscmd=bootm $(kernel_addr) • Delete variables =>setenv nfscmd • Save variables, remember to check all variables =>saveenv

Creating Boot Scripts • boot scripts are actually environment variables containing a set of U-Boot command sequences • For example: nfscmd • Run boot scripts by using a combination of the run command and the ; (semicolon) operator =>run nfscmd • Set bootcmd to autoboot =>setenv bootcmd “run nfscmd” Or set bootcmd to contain the entire boot script instead of using run nfscmd

Booting Commands • Download images with “tftp” and go =>tftp 30008000 zImage =>go 30008000 • Booting u-boot image • =>bootm 00040000 • Booting Using BOOTP =>bootp • Booting from ramdisk, the ramdisk.img address should be given =>bootm 00040000 00200000 • Booting from Compact Flash =>ide =>diskboot =>disk

Updating U-Boot • U-boot can be used to update itself because it runs from RAM • Download the U-Boot image into RAM =>tftp 30100000 u-boot.bin Or using serial port =>loadb 30100000 • Unprotect the flash region where U-Boot is located and erase it =>protect off 0000000 0003FFFF =>erase 0000000 0003FFFF • Copy the new bootloader to its final destination =>cp.b 30100000 00000000 <filesize>

Porting U-boot • U-boot can support PowerPC, ARM, XSCALE and x86 Processors. More and more boards are supported now. • Porting is very easy if you have a board which is very similar with a supported board. • Make sure if the processor and I/O devices of your board is supported by u-boot . You should be aware of your hardware platform before porting u-boot. • Add board specific files, configure and build it.

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The success's road

The success's road

Presentation Transcript

Road Safety We Share The Road

The Road

The Road

The Road

The Silk Road

The road ahead

The road travelled, the road ahead

The ROAD

The Road

The Road

The success's road

Road Safety We Share The Road

The Silk Road and the Silk Road Festival

The Road

The Road

The Silk Road and the Silk Road Festival

The road

The Road

This is the way I cross the road, Cross the road, cross the road.