board-qemu/slof/tree.fs - SLOF - Git at Google

 \ *****************************************************************************
 \ * Copyright (c) 2004, 2011 IBM Corporation
 \ * All rights reserved.
 \ * This program and the accompanying materials
 \ * are made available under the terms of the BSD License
 \ * which accompanies this distribution, and is available at
 \ * http://www.opensource.org/licenses/bsd-license.php
 \ *
 \ * Contributors:
 \ *     IBM Corporation - initial implementation
 \ ****************************************************************************/

 : strequal ( str1 len1 str2 len2 -- flag )
   rot dup rot = IF comp 0= ELSE 2drop drop 0 THEN ;

 400 cp

 \ The root of the device tree and some of its kids.
 " /" find-device

 \ The following properties have been provided by the FDT from QEMU already,
 \ so we do not have to create them on our own:

 \ " QEMU" encode-string s" model" property
 \ 2 encode-int s" #address-cells" property
 \ 2 encode-int s" #size-cells" property
 \ s" chrp" device-type

 #include "archsupport.fs"

 480 cp

 \ See 3.6.5, and the PowerPC OF binding document.
 new-device
 s" mmu" 2dup device-name device-type
 0 0 s" translations" property

 : open  true ;
 : close ;

 finish-device
 device-end

 4c0 cp

 \ Fixup timebase frequency from device-tree
 : fixup-tbfreq
     " /cpus" find-device
     get-node child dup 0= ABORT" CPU not found"
     set-node
     " timebase-frequency" get-node get-package-property IF
         2drop
     ELSE
         decode-int to tb-frequency 2drop
     THEN
     device-end
 ;
 fixup-tbfreq

 4d0 cp

 include fbuffer.fs

 500 cp

 : populate-vios ( -- )
     \ Populate the /vdevice children with their methods
     \ WARNING: Quite a few SLOFisms here like get-node, set-node, ...

     ." Populating /vdevice methods" cr
     " /vdevice" find-device get-node child
     BEGIN
         dup 0 <>
     WHILE
         dup set-node
         dup " compatible" rot get-package-property 0 = IF
             drop dup from-cstring
             2dup " hvterm1" strequal IF
                 " vio-hvterm.fs" included
             THEN
             2dup " IBM,v-scsi" strequal IF
                 " vio-vscsi.fs" included
             THEN
             2dup " IBM,l-lan" strequal IF
                 " vio-veth.fs" included
             THEN
 	    2dup " qemu,spapr-nvram" strequal IF
 	    	" rtas-nvram.fs" included
 	    THEN
 	    2dup " IBM,vtpm20" strequal IF
                 " vio-vtpm-cdriver.fs" included
 	    THEN
             2drop
        THEN
        peer
     REPEAT drop

     device-end
 ;

 \ Now do it
 populate-vios

 5a0 cp

 #include "pci-scan.fs"

 : populate-pci-busses ( -- )
     \ Populate the /pci* children with their methods
     " /" find-device get-node child
     BEGIN
         dup 0 <>
     WHILE
         dup set-node
         dup " name" rot get-package-property 0 = IF
             drop dup from-cstring
             2dup s" pci" strequal IF
                 s" pci-phb.fs" included
             THEN
             2drop
        THEN
        peer
     REPEAT drop

     device-end
 ;

 populate-pci-busses

 600 cp

 : check-patch-kernel-sc1 ( -- )
     \ At this point we can try our best to patch the kernel. This function
     \ gets called from the "quiesce" call that kernels execute before they
     \ take over the system.
     \
     \ Here we know that ciregs->r4 contains the return address that gets us
     \ back into enter_prom inside the guest kernel.
     \ We assume that within a range of +- 16MB of that pointer all sc 1
     \ instructions inside of that kernel reside.

     \ test_ins (instruction that tells us the kernel's endianness; we use the
     \           return address back into the kernel here.)
     ciregs >r4 @
     \ test_ins + 16MB (end of search range)
     dup 1000000 +
     \ MAX(test_ins - 16MB, 0) (start of search range)
     dup 2000000 < IF 0 ELSE dup 2000000 - THEN
     swap
     check-and-patch-sc1
 ;

 \ Add sc 1 patching
 ' check-patch-kernel-sc1 add-quiesce-xt

 \ Add rtas cleanup last
 ' rtas-quiesce add-quiesce-xt

 6c0 cp

 set-chosen-cpu

 s" /memory@0" open-dev encode-int s" memory" set-chosen

 700 cp

 \ See 3.5.
 s" /openprom" find-device
    s" SLOF," slof-build-id here swap rmove here slof-build-id nip $cat encode-string s" model" property
    0 0 s" relative-addressing" property
 device-end

 s" /mmu" open-dev encode-int s" mmu" set-chosen

 #include "available.fs"

 \ Setup terminal IO

 #include <term-io.fs>
	\ *****************************************************************************
	\ * Copyright (c) 2004, 2011 IBM Corporation
	\ * All rights reserved.
	\ * This program and the accompanying materials
	\ * are made available under the terms of the BSD License
	\ * which accompanies this distribution, and is available at
	\ * http://www.opensource.org/licenses/bsd-license.php
	\ *
	\ * Contributors:
	\ * IBM Corporation - initial implementation
	\ ****************************************************************************/

	: strequal ( str1 len1 str2 len2 -- flag )
	rot dup rot = IF comp 0= ELSE 2drop drop 0 THEN ;

	400 cp

	\ The root of the device tree and some of its kids.
	" /" find-device

	\ The following properties have been provided by the FDT from QEMU already,
	\ so we do not have to create them on our own:

	\ " QEMU" encode-string s" model" property
	\ 2 encode-int s" #address-cells" property
	\ 2 encode-int s" #size-cells" property
	\ s" chrp" device-type

	#include "archsupport.fs"

	480 cp

	\ See 3.6.5, and the PowerPC OF binding document.
	new-device
	s" mmu" 2dup device-name device-type
	0 0 s" translations" property

	: open true ;
	: close ;

	finish-device
	device-end

	4c0 cp

	\ Fixup timebase frequency from device-tree
	: fixup-tbfreq
	" /cpus" find-device
	get-node child dup 0= ABORT" CPU not found"
	set-node
	" timebase-frequency" get-node get-package-property IF
	2drop
	ELSE
	decode-int to tb-frequency 2drop
	THEN
	device-end
	;
	fixup-tbfreq

	4d0 cp

	include fbuffer.fs

	500 cp

	: populate-vios ( -- )
	\ Populate the /vdevice children with their methods
	\ WARNING: Quite a few SLOFisms here like get-node, set-node, ...

	." Populating /vdevice methods" cr
	" /vdevice" find-device get-node child
	BEGIN
	dup 0 <>
	WHILE
	dup set-node
	dup " compatible" rot get-package-property 0 = IF
	drop dup from-cstring
	2dup " hvterm1" strequal IF
	" vio-hvterm.fs" included
	THEN
	2dup " IBM,v-scsi" strequal IF
	" vio-vscsi.fs" included
	THEN
	2dup " IBM,l-lan" strequal IF
	" vio-veth.fs" included
	THEN
	2dup " qemu,spapr-nvram" strequal IF
	" rtas-nvram.fs" included
	THEN
	2dup " IBM,vtpm20" strequal IF
	" vio-vtpm-cdriver.fs" included
	THEN
	2drop
	THEN
	peer
	REPEAT drop

	device-end
	;

	\ Now do it
	populate-vios

	5a0 cp

	#include "pci-scan.fs"

	: populate-pci-busses ( -- )
	\ Populate the /pci* children with their methods
	" /" find-device get-node child
	BEGIN
	dup 0 <>
	WHILE
	dup set-node
	dup " name" rot get-package-property 0 = IF
	drop dup from-cstring
	2dup s" pci" strequal IF
	s" pci-phb.fs" included
	THEN
	2drop
	THEN
	peer
	REPEAT drop

	device-end
	;

	populate-pci-busses

	600 cp

	: check-patch-kernel-sc1 ( -- )
	\ At this point we can try our best to patch the kernel. This function
	\ gets called from the "quiesce" call that kernels execute before they
	\ take over the system.
	\
	\ Here we know that ciregs->r4 contains the return address that gets us
	\ back into enter_prom inside the guest kernel.
	\ We assume that within a range of +- 16MB of that pointer all sc 1
	\ instructions inside of that kernel reside.

	\ test_ins (instruction that tells us the kernel's endianness; we use the
	\ return address back into the kernel here.)
	ciregs >r4 @
	\ test_ins + 16MB (end of search range)
	dup 1000000 +
	\ MAX(test_ins - 16MB, 0) (start of search range)
	dup 2000000 < IF 0 ELSE dup 2000000 - THEN
	swap
	check-and-patch-sc1
	;

	\ Add sc 1 patching
	' check-patch-kernel-sc1 add-quiesce-xt

	\ Add rtas cleanup last
	' rtas-quiesce add-quiesce-xt

	6c0 cp

	set-chosen-cpu

	s" /memory@0" open-dev encode-int s" memory" set-chosen

	700 cp

	\ See 3.5.
	s" /openprom" find-device
	s" SLOF," slof-build-id here swap rmove here slof-build-id nip $cat encode-string s" model" property
	0 0 s" relative-addressing" property
	device-end

	s" /mmu" open-dev encode-int s" mmu" set-chosen

	#include "available.fs"

	\ Setup terminal IO

	#include <term-io.fs>