board/freescale/p1_p2_rdb/README - uboot/armada - Git at Google

 Overview
 --------
 P2020RDB is a Low End Dual core platform supporting the P2020 processor
 of QorIQ series. P2020 is an e500 based dual core SOC.

 Building U-boot
 -----------
 To build the u-boot for P2020RDB:
 	make P2020RDB_config
 	make

 NOR Flash Banks
 -----------
 RDB board for P2020 has two flash banks. They are both present on boot.

 Booting by default is always from the boot bank at 0xef00_0000.

 Memory Map
 ----------
 0xef00_0000 - 0xef7f_ffff	Alternate bank		8MB
 0xe800_0000 - 0xefff_ffff	Boot bank		8MB

 0xef78_0000 - 0xef7f_ffff	Alternate u-boot address	512KB
 0xeff8_0000 - 0xefff_ffff	Boot u-boot address		512KB

 Switch settings to boot from the NOR flash banks
 ------------------------------------------------
 SW4[8]=0 default NOR Flash bank
 SW4[8]=1 Alternate NOR Flash bank

 Flashing Images
 ---------------
 To place a new u-boot image in the alternate flash bank and then boot
 with that new image temporarily, use this:
 	tftp 1000000 u-boot.bin
 	erase ef780000 ef7fffff
 	cp.b 1000000 ef780000 80000

 Now to boot from the alternate bank change the SW4[8] from 0 to 1.

 To program the image in the boot flash bank:
 	tftp 1000000 u-boot.bin
 	protect off all
 	erase eff80000 ffffffff
 	cp.b 1000000 eff80000 80000

 Using the Device Tree Source File
 ---------------------------------
 To create the DTB (Device Tree Binary) image file,
 use a command similar to this:

 	dtc -b 0 -f -I dts -O dtb p2020rdb.dts > p2020rdb.dtb

 Likely, that .dts file will come from here;

 	linux-2.6/arch/powerpc/boot/dts/p2020rdb.dts

 Booting Linux
 -------------
 Place a linux uImage in the TFTP disk area.

 	tftp 1000000 uImage.p2020rdb
 	tftp 2000000 rootfs.ext2.gz.uboot
 	tftp c00000 p2020rdb.dtb
 	bootm 1000000 2000000 c00000

 Implementing AMP(Asymmetric MultiProcessing)
 ---------------------------------------------
 1. Build kernel image for core0:

 	a. $ make 85xx/p1_p2_rdb_defconfig

 	b. $ make menuconfig
 	   - un-select "Processor support"->
 		"Symetric multi-processing support"

 	c. $ make uImage

 	d. $ cp arch/powerpc/boot/uImage /tftpboot/uImage.core0

 2. Build kernel image for core1:

 	a. $ make 85xx/p1_p2_rdb_defconfig

 	b. $ make menuconfig
 	   - Un-select "Processor support"->
 		"Symetric multi-processing support"
 	   - Select "Advanced setup" ->
 		"Prompt for advanced kernel configuration options"
 		- Select
 			"Set physical address where the kernel is loaded"
 			and set it to 0x20000000, assuming core1 will
 			start from 512MB.
 		- Select "Set custom page offset address"
 		- Select "Set custom kernel base address"
 		- Select "Set maximum low memory"
 	   - "Exit" and save the selection.

 	c. $ make uImage

 	d. $ cp arch/powerpc/boot/uImage /tftpboot/uImage.core1

 3. Create dtb for core0:

 	$ dtc -I dts -O dtb -f -b 0
 		 arch/powerpc/boot/dts/p2020rdb_camp_core0.dts >
 		 /tftpboot/p2020rdb_camp_core0.dtb

 4. Create dtb for core1:

 	$ dtc -I dts -O dtb -f -b 1
 		 arch/powerpc/boot/dts/p2020rdb_camp_core1.dts >
 		 /tftpboot/p2020rdb_camp_core1.dtb

 5. Bring up two cores separately:

 	a. Power on the board, under u-boot prompt:
 		=> setenv <serverip>
 		=> setenv <ipaddr>
 		=> setenv bootargs root=/dev/ram rw console=ttyS0,115200
 	b. Bring up core1's kernel first:
 		=> setenv bootm_low 0x20000000
 		=> setenv bootm_size 0x10000000
 		=> tftp 21000000 uImage.core1
 		=> tftp 22000000 ramdiskfile
 		=> tftp 20c00000 p2020rdb_camp_core1.dtb
 		=> interrupts off
 		=> bootm start 21000000 22000000 20c00000
 		=> bootm loados
 		=> bootm ramdisk
 		=> bootm fdt
 		=> fdt boardsetup
 		=> fdt chosen $initrd_start $initrd_end
 		=> bootm prep
 		=> cpu 1 release $bootm_low - $fdtaddr -
 	c. Bring up core0's kernel(on the same u-boot console):
 		=> setenv bootm_low 0
 		=> setenv bootm_size 0x20000000
 		=> tftp 1000000 uImage.core0
 		=> tftp 2000000 ramdiskfile
 		=> tftp c00000 p2020rdb_camp_core0.dtb
 		=> bootm 1000000 2000000 c00000

 Please note only core0 will run u-boot, core1 starts kernel directly
 after "cpu release" command is issued.
	Overview
	--------
	P2020RDB is a Low End Dual core platform supporting the P2020 processor
	of QorIQ series. P2020 is an e500 based dual core SOC.

	Building U-boot
	-----------
	To build the u-boot for P2020RDB:
	make P2020RDB_config
	make

	NOR Flash Banks
	-----------
	RDB board for P2020 has two flash banks. They are both present on boot.

	Booting by default is always from the boot bank at 0xef00_0000.

	Memory Map
	----------
	0xef00_0000 - 0xef7f_ffff Alternate bank 8MB
	0xe800_0000 - 0xefff_ffff Boot bank 8MB

	0xef78_0000 - 0xef7f_ffff Alternate u-boot address 512KB
	0xeff8_0000 - 0xefff_ffff Boot u-boot address 512KB

	Switch settings to boot from the NOR flash banks
	------------------------------------------------
	SW4[8]=0 default NOR Flash bank
	SW4[8]=1 Alternate NOR Flash bank

	Flashing Images
	---------------
	To place a new u-boot image in the alternate flash bank and then boot
	with that new image temporarily, use this:
	tftp 1000000 u-boot.bin
	erase ef780000 ef7fffff
	cp.b 1000000 ef780000 80000

	Now to boot from the alternate bank change the SW4[8] from 0 to 1.

	To program the image in the boot flash bank:
	tftp 1000000 u-boot.bin
	protect off all
	erase eff80000 ffffffff
	cp.b 1000000 eff80000 80000

	Using the Device Tree Source File
	---------------------------------
	To create the DTB (Device Tree Binary) image file,
	use a command similar to this:

	dtc -b 0 -f -I dts -O dtb p2020rdb.dts > p2020rdb.dtb

	Likely, that .dts file will come from here;

	linux-2.6/arch/powerpc/boot/dts/p2020rdb.dts

	Booting Linux
	-------------
	Place a linux uImage in the TFTP disk area.

	tftp 1000000 uImage.p2020rdb
	tftp 2000000 rootfs.ext2.gz.uboot
	tftp c00000 p2020rdb.dtb
	bootm 1000000 2000000 c00000

	Implementing AMP(Asymmetric MultiProcessing)
	---------------------------------------------
	1. Build kernel image for core0:

	a. $ make 85xx/p1_p2_rdb_defconfig

	b. $ make menuconfig
	- un-select "Processor support"->
	"Symetric multi-processing support"

	c. $ make uImage

	d. $ cp arch/powerpc/boot/uImage /tftpboot/uImage.core0

	2. Build kernel image for core1:

	a. $ make 85xx/p1_p2_rdb_defconfig

	b. $ make menuconfig
	- Un-select "Processor support"->
	"Symetric multi-processing support"
	- Select "Advanced setup" ->
	"Prompt for advanced kernel configuration options"
	- Select
	"Set physical address where the kernel is loaded"
	and set it to 0x20000000, assuming core1 will
	start from 512MB.
	- Select "Set custom page offset address"
	- Select "Set custom kernel base address"
	- Select "Set maximum low memory"
	- "Exit" and save the selection.

	c. $ make uImage

	d. $ cp arch/powerpc/boot/uImage /tftpboot/uImage.core1

	3. Create dtb for core0:

	$ dtc -I dts -O dtb -f -b 0
	arch/powerpc/boot/dts/p2020rdb_camp_core0.dts >
	/tftpboot/p2020rdb_camp_core0.dtb

	4. Create dtb for core1:

	$ dtc -I dts -O dtb -f -b 1
	arch/powerpc/boot/dts/p2020rdb_camp_core1.dts >
	/tftpboot/p2020rdb_camp_core1.dtb

	5. Bring up two cores separately:

	a. Power on the board, under u-boot prompt:
	=> setenv <serverip>
	=> setenv <ipaddr>
	=> setenv bootargs root=/dev/ram rw console=ttyS0,115200
	b. Bring up core1's kernel first:
	=> setenv bootm_low 0x20000000
	=> setenv bootm_size 0x10000000
	=> tftp 21000000 uImage.core1
	=> tftp 22000000 ramdiskfile
	=> tftp 20c00000 p2020rdb_camp_core1.dtb
	=> interrupts off
	=> bootm start 21000000 22000000 20c00000
	=> bootm loados
	=> bootm ramdisk
	=> bootm fdt
	=> fdt boardsetup
	=> fdt chosen $initrd_start $initrd_end
	=> bootm prep
	=> cpu 1 release $bootm_low - $fdtaddr -
	c. Bring up core0's kernel(on the same u-boot console):
	=> setenv bootm_low 0
	=> setenv bootm_size 0x20000000
	=> tftp 1000000 uImage.core0
	=> tftp 2000000 ramdiskfile
	=> tftp c00000 p2020rdb_camp_core0.dtb
	=> bootm 1000000 2000000 c00000

	Please note only core0 will run u-boot, core1 starts kernel directly
	after "cpu release" command is issued.