mirror of
https://github.com/AsahiLinux/u-boot
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bbe285c305
Add support for filtering out FIT images by phase. Rather than adding yet another argument to this already overloaded function, use a composite value, where the phase is only added in if needed. The FIT config is still selected (and verified) as normal, but the images are selected based on the phase. Tests for this come in a little later, as part of the updated VPL test. Signed-off-by: Simon Glass <sjg@chromium.org>
411 lines
14 KiB
Text
411 lines
14 KiB
Text
How to use images in the new image format
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=========================================
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Author: Bartlomiej Sieka <tur@semihalf.com>
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Overview
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--------
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The new uImage format allows more flexibility in handling images of various
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types (kernel, ramdisk, etc.), it also enhances integrity protection of images
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with sha1 and md5 checksums.
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Two auxiliary tools are needed on the development host system in order to
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create an uImage in the new format: mkimage and dtc, although only one
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(mkimage) is invoked directly. dtc is called from within mkimage and operates
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behind the scenes, but needs to be present in the $PATH nevertheless. It is
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important that the dtc used has support for binary includes -- refer to
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git://git.kernel.org/pub/scm/utils/dtc/dtc.git
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for its latest version. mkimage (together with dtc) takes as input
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an image source file, which describes the contents of the image and defines
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its various properties used during booting. By convention, image source file
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has the ".its" extension, also, the details of its format are given in
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doc/uImage.FIT/source_file_format.txt. The actual data that is to be included in
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the uImage (kernel, ramdisk, etc.) is specified in the image source file in the
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form of paths to appropriate data files. The outcome of the image creation
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process is a binary file (by convention with the ".itb" extension) that
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contains all the referenced data (kernel, ramdisk, etc.) and other information
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needed by U-Boot to handle the uImage properly. The uImage file is then
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transferred to the target (e.g., via tftp) and booted using the bootm command.
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To summarize the prerequisites needed for new uImage creation:
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- mkimage
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- dtc (with support for binary includes)
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- image source file (*.its)
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- image data file(s)
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Here's a graphical overview of the image creation and booting process:
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image source file mkimage + dtc transfer to target
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+ ---------------> image file --------------------> bootm
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image data file(s)
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SPL usage
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---------
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The SPL can make use of the new image format as well, this traditionally
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is used to ship multiple device tree files within one image. Code in the SPL
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will choose the one matching the current board and append this to the
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U-Boot proper binary to be automatically used up by it.
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Aside from U-Boot proper and one device tree blob the SPL can load multiple,
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arbitrary image files as well. These binaries should be specified in their
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own subnode under the /images node, which should then be referenced from one or
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multiple /configurations subnodes. The required images must be enumerated in
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the "loadables" property as a list of strings.
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If a platform specific image source file (.its) is shipped with the U-Boot
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source, it can be specified using the CONFIG_SPL_FIT_SOURCE Kconfig symbol.
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In this case it will be automatically used by U-Boot's Makefile to generate
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the image.
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If a static source file is not flexible enough, CONFIG_SPL_FIT_GENERATOR
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can point to a script which generates this image source file during
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the build process. It gets passed a list of device tree files (taken from the
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CONFIG_OF_LIST symbol).
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The SPL also records to a DT all additional images (called loadables) which are
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loaded. The information about loadables locations is passed via the DT node with
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fit-images name.
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Finally, if there are multiple xPL phases (e.g. SPL, VPL), images can be marked
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as intended for a particular phase using the 'phase' property. For example, if
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fit_image_load() is called with image_ph(IH_PHASE_SPL, IH_TYPE_FIRMWARE), then
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only the image listed into the "firmware" property where phase is set to "spl"
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will be loaded.
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Loadables Example
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-----------------
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Consider the following case for an ARM64 platform where U-Boot runs in EL2
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started by ATF where SPL is loading U-Boot (as loadables) and ATF (as firmware).
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/dts-v1/;
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/ {
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description = "Configuration to load ATF before U-Boot";
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images {
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uboot {
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description = "U-Boot (64-bit)";
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data = /incbin/("u-boot-nodtb.bin");
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type = "firmware";
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os = "u-boot";
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arch = "arm64";
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compression = "none";
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load = <0x8 0x8000000>;
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entry = <0x8 0x8000000>;
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hash {
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algo = "md5";
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};
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};
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atf {
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description = "ARM Trusted Firmware";
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data = /incbin/("bl31.bin");
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type = "firmware";
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os = "arm-trusted-firmware";
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arch = "arm64";
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compression = "none";
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load = <0xfffea000>;
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entry = <0xfffea000>;
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hash {
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algo = "md5";
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};
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};
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fdt_1 {
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description = "zynqmp-zcu102-revA";
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data = /incbin/("arch/arm/dts/zynqmp-zcu102-revA.dtb");
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type = "flat_dt";
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arch = "arm64";
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compression = "none";
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load = <0x100000>;
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hash {
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algo = "md5";
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};
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};
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};
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configurations {
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default = "config_1";
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config_1 {
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description = "zynqmp-zcu102-revA";
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firmware = "atf";
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loadables = "uboot";
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fdt = "fdt_1";
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};
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};
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};
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In this case the SPL records via fit-images DT node the information about
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loadables U-Boot image.
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ZynqMP> fdt addr $fdtcontroladdr
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ZynqMP> fdt print /fit-images
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fit-images {
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uboot {
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os = "u-boot";
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type = "firmware";
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size = <0x001017c8>;
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entry = <0x00000008 0x08000000>;
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load = <0x00000008 0x08000000>;
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};
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};
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As you can see entry and load properties are 64bit wide to support loading
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images above 4GB (in past entry and load properties where just 32bit).
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Example 1 -- old-style (non-FDT) kernel booting
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-----------------------------------------------
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Consider a simple scenario, where a PPC Linux kernel built from sources on the
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development host is to be booted old-style (non-FDT) by U-Boot on an embedded
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target. Assume that the outcome of the build is vmlinux.bin.gz, a file which
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contains a gzip-compressed PPC Linux kernel (the only data file in this case).
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The uImage can be produced using the image source file
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doc/uImage.FIT/kernel.its (note that kernel.its assumes that vmlinux.bin.gz is
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in the current working directory; if desired, an alternative path can be
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specified in the kernel.its file). Here's how to create the image and inspect
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its contents:
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[on the host system]
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$ mkimage -f kernel.its kernel.itb
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DTC: dts->dtb on file "kernel.its"
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$
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$ mkimage -l kernel.itb
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FIT description: Simple image with single Linux kernel
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Created: Tue Mar 11 17:26:15 2008
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Image 0 (kernel)
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Description: Vanilla Linux kernel
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Type: Kernel Image
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Compression: gzip compressed
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Data Size: 943347 Bytes = 921.24 kB = 0.90 MB
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Architecture: PowerPC
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OS: Linux
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Load Address: 0x00000000
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Entry Point: 0x00000000
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Hash algo: crc32
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Hash value: 2ae2bb40
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Hash algo: sha1
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Hash value: 3c200f34e2c226ddc789240cca0c59fc54a67cf4
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Default Configuration: 'config-1'
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Configuration 0 (config-1)
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Description: Boot Linux kernel
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Kernel: kernel
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The resulting image file kernel.itb can be now transferred to the target,
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inspected and booted (note that first three U-Boot commands below are shown
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for completeness -- they are part of the standard booting procedure and not
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specific to the new image format).
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[on the target system]
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=> print nfsargs
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nfsargs=setenv bootargs root=/dev/nfs rw nfsroot=${serverip}:${rootpath}
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=> print addip
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addip=setenv bootargs ${bootargs} ip=${ipaddr}:${serverip}:${gatewayip}:${netmask}:${hostname}:${netdev}:off panic=1
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=> run nfsargs addip
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=> tftp 900000 /path/to/tftp/location/kernel.itb
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Using FEC device
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TFTP from server 192.168.1.1; our IP address is 192.168.160.5
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Filename '/path/to/tftp/location/kernel.itb'.
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Load address: 0x900000
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Loading: #################################################################
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done
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Bytes transferred = 944464 (e6950 hex)
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=> iminfo
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## Checking Image at 00900000 ...
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FIT image found
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FIT description: Simple image with single Linux kernel
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Created: 2008-03-11 16:26:15 UTC
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Image 0 (kernel)
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Description: Vanilla Linux kernel
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Type: Kernel Image
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Compression: gzip compressed
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Data Start: 0x009000e0
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Data Size: 943347 Bytes = 921.2 kB
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Architecture: PowerPC
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OS: Linux
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Load Address: 0x00000000
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Entry Point: 0x00000000
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Hash algo: crc32
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Hash value: 2ae2bb40
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Hash algo: sha1
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Hash value: 3c200f34e2c226ddc789240cca0c59fc54a67cf4
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Default Configuration: 'config-1'
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Configuration 0 (config-1)
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Description: Boot Linux kernel
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Kernel: kernel
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=> bootm
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## Booting kernel from FIT Image at 00900000 ...
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Using 'config-1' configuration
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Trying 'kernel' kernel subimage
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Description: Vanilla Linux kernel
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Type: Kernel Image
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Compression: gzip compressed
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Data Start: 0x009000e0
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Data Size: 943347 Bytes = 921.2 kB
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Architecture: PowerPC
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OS: Linux
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Load Address: 0x00000000
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Entry Point: 0x00000000
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Hash algo: crc32
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Hash value: 2ae2bb40
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Hash algo: sha1
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Hash value: 3c200f34e2c226ddc789240cca0c59fc54a67cf4
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Verifying Hash Integrity ... crc32+ sha1+ OK
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Uncompressing Kernel Image ... OK
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Memory BAT mapping: BAT2=256Mb, BAT3=0Mb, residual: 0Mb
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Linux version 2.4.25 (m8@hekate) (gcc version 4.0.0 (DENX ELDK 4.0 4.0.0)) #2 czw lip 5 17:56:18 CEST 2007
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On node 0 totalpages: 65536
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zone(0): 65536 pages.
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zone(1): 0 pages.
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zone(2): 0 pages.
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Kernel command line: root=/dev/nfs rw nfsroot=192.168.1.1:/opt/eldk-4.1/ppc_6xx ip=192.168.160.5:192.168.1.1::255.255.0.0:lite5200b:eth0:off panic=1
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Calibrating delay loop... 307.20 BogoMIPS
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Example 2 -- new-style (FDT) kernel booting
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-------------------------------------------
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Consider another simple scenario, where a PPC Linux kernel is to be booted
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new-style, i.e., with a FDT blob. In this case there are two prerequisite data
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files: vmlinux.bin.gz (Linux kernel) and target.dtb (FDT blob). The uImage can
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be produced using image source file doc/uImage.FIT/kernel_fdt.its like this
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(note again, that both prerequisite data files are assumed to be present in
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the current working directory -- image source file kernel_fdt.its can be
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modified to take the files from some other location if needed):
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[on the host system]
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$ mkimage -f kernel_fdt.its kernel_fdt.itb
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DTC: dts->dtb on file "kernel_fdt.its"
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$
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$ mkimage -l kernel_fdt.itb
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FIT description: Simple image with single Linux kernel and FDT blob
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Created: Tue Mar 11 16:29:22 2008
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Image 0 (kernel)
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Description: Vanilla Linux kernel
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Type: Kernel Image
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Compression: gzip compressed
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Data Size: 1092037 Bytes = 1066.44 kB = 1.04 MB
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Architecture: PowerPC
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OS: Linux
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Load Address: 0x00000000
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Entry Point: 0x00000000
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Hash algo: crc32
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Hash value: 2c0cc807
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Hash algo: sha1
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Hash value: 264b59935470e42c418744f83935d44cdf59a3bb
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Image 1 (fdt-1)
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Description: Flattened Device Tree blob
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Type: Flat Device Tree
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Compression: uncompressed
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Data Size: 16384 Bytes = 16.00 kB = 0.02 MB
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Architecture: PowerPC
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Hash algo: crc32
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Hash value: 0d655d71
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Hash algo: sha1
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Hash value: 25ab4e15cd4b8a5144610394560d9c318ce52def
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Default Configuration: 'conf-1'
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Configuration 0 (conf-1)
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Description: Boot Linux kernel with FDT blob
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Kernel: kernel
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FDT: fdt-1
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The resulting image file kernel_fdt.itb can be now transferred to the target,
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inspected and booted:
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[on the target system]
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=> tftp 900000 /path/to/tftp/location/kernel_fdt.itb
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Using FEC device
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TFTP from server 192.168.1.1; our IP address is 192.168.160.5
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Filename '/path/to/tftp/location/kernel_fdt.itb'.
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Load address: 0x900000
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Loading: #################################################################
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###########
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done
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Bytes transferred = 1109776 (10ef10 hex)
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=> iminfo
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## Checking Image at 00900000 ...
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FIT image found
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FIT description: Simple image with single Linux kernel and FDT blob
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Created: 2008-03-11 15:29:22 UTC
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Image 0 (kernel)
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Description: Vanilla Linux kernel
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Type: Kernel Image
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Compression: gzip compressed
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Data Start: 0x009000ec
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Data Size: 1092037 Bytes = 1 MB
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Architecture: PowerPC
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OS: Linux
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Load Address: 0x00000000
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Entry Point: 0x00000000
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Hash algo: crc32
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Hash value: 2c0cc807
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Hash algo: sha1
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Hash value: 264b59935470e42c418744f83935d44cdf59a3bb
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Image 1 (fdt-1)
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Description: Flattened Device Tree blob
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Type: Flat Device Tree
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Compression: uncompressed
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Data Start: 0x00a0abdc
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Data Size: 16384 Bytes = 16 kB
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Architecture: PowerPC
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Hash algo: crc32
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Hash value: 0d655d71
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Hash algo: sha1
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Hash value: 25ab4e15cd4b8a5144610394560d9c318ce52def
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Default Configuration: 'conf-1'
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Configuration 0 (conf-1)
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Description: Boot Linux kernel with FDT blob
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Kernel: kernel
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FDT: fdt-1
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=> bootm
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## Booting kernel from FIT Image at 00900000 ...
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Using 'conf-1' configuration
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Trying 'kernel' kernel subimage
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Description: Vanilla Linux kernel
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Type: Kernel Image
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Compression: gzip compressed
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Data Start: 0x009000ec
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Data Size: 1092037 Bytes = 1 MB
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Architecture: PowerPC
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OS: Linux
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Load Address: 0x00000000
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Entry Point: 0x00000000
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Hash algo: crc32
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Hash value: 2c0cc807
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Hash algo: sha1
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Hash value: 264b59935470e42c418744f83935d44cdf59a3bb
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Verifying Hash Integrity ... crc32+ sha1+ OK
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Uncompressing Kernel Image ... OK
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## Flattened Device Tree from FIT Image at 00900000
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Using 'conf-1' configuration
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Trying 'fdt-1' FDT blob subimage
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Description: Flattened Device Tree blob
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Type: Flat Device Tree
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Compression: uncompressed
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Data Start: 0x00a0abdc
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Data Size: 16384 Bytes = 16 kB
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Architecture: PowerPC
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Hash algo: crc32
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Hash value: 0d655d71
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Hash algo: sha1
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Hash value: 25ab4e15cd4b8a5144610394560d9c318ce52def
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Verifying Hash Integrity ... crc32+ sha1+ OK
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Booting using the fdt blob at 0xa0abdc
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Loading Device Tree to 007fc000, end 007fffff ... OK
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[ 0.000000] Using lite5200 machine description
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[ 0.000000] Linux version 2.6.24-rc6-gaebecdfc (m8@hekate) (gcc version 4.0.0 (DENX ELDK 4.1 4.0.0)) #1 Sat Jan 12 15:38:48 CET 2008
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Example 3 -- advanced booting
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-----------------------------
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Refer to doc/uImage.FIT/multi.its for an image source file that allows more
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sophisticated booting scenarios (multiple kernels, ramdisks and fdt blobs).
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