[PROPOSAL] ARM/FDT: passing multiple binaries to a kernel

[Andre Przywara]

Hi,

a normal Linux kernel currently supports reading the start and end 
address of a single binary blob via the FDT's /chosen node.
This will be interpreted as the location of an initial RAM disk.

The Xen hypervisor itself is a kernel, but needs up to _two_ binaries 
for proper operation: a Dom0 Linux kernel and it's associated initrd.
On x86 this is solved via the multiboot protocol used by the Grub 
bootloader, which supports to pass an arbitrary number of binary modules 
to any kernel.

Since in the ARM world we have the versatile device tree, we don't need 
to implement the mulitboot protocol.

So I'd like to propose a new binding which denotes binary modules a 
kernel can use at it's own discretion.
The need is triggered by the Xen hypervisor (which already uses a very 
similar scheme), but the approach is deliberately chosen to be as 
generic as possible to allow future uses (like passing firmware blobs 
for devices or the like).
Credits for this go to Ian Campbell, who started something very similar 
[1] for the Xen hypervisor. The intention of this proposal is to make 
this generic and publicly documented.

Looking forward to any comments!

Thanks,
Andre.

[1] 
http://xenbits.xen.org/gitweb/?p=xen.git;a=blob;f=docs/misc/arm/device-tree/booting.txt;h=94cd3f18a4e1317a35e1255bf5c6e1e091001d1a;hb=HEAD
----------------------------
* Multiple boot modules device tree bindings

Boot loaders wanting to pass multiple additional binaries to a kernel 
shall add a node "module" for each binary blob under the /chosen node 
with the following properties:

- compatible:
     compatible = "boot,module";
   A bootloader may add names to more specifically describe the module,
   e.g. Xen may use "xen,dom0-kernel" or "xen,dom0-ramdisk".
   If possible a kernel should be able to use modules even without a
   descriptive naming, by enumerating them in order and using hard-coded
   meanings for each module (e.g. first is kernel, second is initrd).

- reg: specifies the base physical address and size of a region in
   memory where the bootloader loaded the respective binary data to.

- bootargs:
   An optional property describing arguments to use for this module.
   Could be a command line or configuration data.

Example:
/chosen {
     #size-cells = <0x1>;
     #address-cells = <0x1>;
     module at 0 {
         compatible = "xen,linux-zimage", "xen,multiboot-module", 
"boot,module";
         reg = <0x80000000 0x003dcff8>;
         bootargs = "console=hvc0 earlyprintk ro root=/dev/sda1 nosmp";
     };
     module at 1 {
         compatible = "xen,linux-initrd", "xen,multiboot-module", 
"boot,module";
         reg = <0x08000000 0x00123456>;
     };
...