board/hisilicon/poplar/README - u-boot - Git at Google

 ================================================================================
 			Board Information
 ================================================================================

 Developed by HiSilicon, the board features the Hi3798C V200 with an
 integrated quad-core 64-bit ARM Cortex A53 processor and high
 performance Mali T720 GPU, making it capable of running any commercial
 set-top solution based on Linux or Android. Its high performance
 specification also supports a premium user experience with up to H.265
 HEVC decoding of 4K video at 60 frames per second.

 SOC  Hisilicon Hi3798CV200
 CPU  Quad-core ARM Cortex-A53 64 bit
 DRAM DDR3/3L/4 SDRAM interface, maximum 32-bit data width 2 GB
 USB  Two USB 2.0 ports One USB 3.0 ports
 CONSOLE  USB-micro port for console support
 ETHERNET  1 GBe Ethernet
 PCIE  One PCIe 2.0 interfaces
 JTAG  8-Pin JTAG
 EXPANSION INTERFACE  Linaro 96Boards Low Speed Expansion slot
 DIMENSION Standard 160×120 mm 96Boards Enterprice Edition form factor
 WIFI  802.11AC 2*2 with Bluetooth
 CONNECTORS  One connector for Smart Card One connector for TSI


 ================================================================================
 			BUILD INSTRUCTIONS
 ================================================================================

 Note of warning:
 ================

 U-boot has a *strong* dependency with the l-loader and the arm trusted firmware
 repositories.

 The boot sequence is:
 	l-loader --> arm_trusted_firmware --> u-boot

 U-Boot needs to be aware of the BL31 runtime location and size to avoid writing
 over it. Currently, BL31 is being placed below the kernel text offset (check
 poplar.c) but this could change in the future.

 The current version of u-boot has been tested with:
  - https://github.com/Linaro/poplar-l-loader.git

 	commit f0988698dcc5c08bd0a8f50aa0457e138a5f438c
 	Author: Alex Elder <elder@linaro.org>
 	Date:   Fri Jun 16 08:57:59 2017 -0500

     l-loader: use external memory region definitions

     The ARM Trusted Firmware code now has a header file that collects
     all the definitions for the memory regions used for its boot stages.
     Include that file where needed, and use the definitions found therein

     Signed-off-by: Alex Elder <elder@linaro.org>


  - https://github.com/Linaro/poplar-arm-trusted-firmware.git

 	commit 6ac42dd3be13c99aa8ce29a15073e2f19d935f68
 	Author: Alex Elder <elder@linaro.org>
 	Date:   Fri Jun 16 09:24:50 2017 -0500

     poplar: define memory regions in a separate file

     Separate the definitions for memory regions used for the BL stage
     images and FIP into a new file.  The "l-loader" image uses knowledge
     of the sizes and locations of these memory regions, and it can now
     include this (external) header to get these definitions, rather than
     having to make coordinated changes to both code bases.

     The new file has a complete set of definitions (more than may be
     required by one or the other user).  It also includes a summary of
     how the boot process works, and how it uses these regions.

     It should now be relatively easy to adjust the sizes and locations
     of these memory regions, or to add to them (e.g. for TEE).

     Signed-off-by: Alex Elder <elder@linaro.org>


 Compile from source:
 ====================

 Get all the sources

   > mkdir -p ~/poplar/src ~/poplar/bin
   > cd ~/poplar/src
   > git clone https://github.com/Linaro/poplar-l-loader.git l-loader
   > git clone https://github.com/Linaro/poplar-arm-trusted-firmware.git atf
   > git clone https://github.com/Linaro/poplar-u-boot.git u-boot

 Make sure you are using the correct branch on each one of these repositories.
 The definition of "correct" might change over time (at this moment in time this
 would be the "latest" branch).

 Compile U-Boot:
 ===============

   Prerequisite:
   # sudo apt-get install device-tree-compiler

   > cd ~/poplar/src/u-boot
   > make CROSS_COMPILE=aarch64-linux-gnu- poplar_defconfig
   > make CROSS_COMPILE=aarch64-linux-gnu-
   > cp u-boot.bin ~/poplar/bin

 Compile ARM Trusted Firmware (ATF):
 ===================================

   > cd ~/poplar/src/atf
   > make CROSS_COMPILE=aarch64-linux-gnu- all fip \
 		SPD=none BL33=~/poplar/bin/u-boot.bin DEBUG=1 PLAT=poplar

 Copy resulting binaries
   > cp build/hi3798cv200/debug/bl1.bin ~/poplar/src/l-loader/atf/
   > cp build/hi3798cv200/debug/fip.bin ~/poplar/src/l-loader/atf/

 Compile l-loader:
 =================

   > cd ~/poplar/src/l-loader
   > make clean
   > make CROSS_COMPILE=arm-linux-gnueabi-

    Due to BootROM requiremets, rename l-loader.bin to fastboot.bin:
   > cp l-loader.bin ~/poplar/bin/fastboot.bin


 ================================================================================
 			FLASH INSTRUCTIONS
 ================================================================================

 Two methods:

 Using USB debrick support:
 	Copy fastboot.bin to a FAT partition on the USB drive and reboot the
        poplar board while pressing S3(usb_boot).

        The system will execute the new u-boot and boot into a shell which you
        can then use to write to eMMC.

 Using U-BOOT from shell:
 	1) using AXIS usb ethernet dongle and tftp
 	2) using FAT formated USB drive


 1. TFTP (USB ethernet dongle)
 =============================

 Plug a USB AXIS ethernet dongle on any of the USB2 ports on the Poplar board.
 Copy fastboot.bin to your tftp server.
 In u-boot make sure your network is properly setup.

 Then

 => tftp 0x30000000 fastboot.bin
 starting USB...
 USB0:   USB EHCI 1.00
 scanning bus 0 for devices... 1 USB Device(s) found
 USB1:   USB EHCI 1.00
 scanning bus 1 for devices... 3 USB Device(s) found
        scanning usb for storage devices... 0 Storage Device(s) found
        scanning usb for ethernet devices... 1 Ethernet Device(s) found
 Waiting for Ethernet connection... done.
 Using asx0 device
 TFTP from server 192.168.1.4; our IP address is 192.168.1.10
 Filename 'poplar/fastboot.bin'.
 Load address: 0x30000000
 Loading: #################################################################
 	 #################################################################
 	 ###############################################################
 	 2 MiB/s
 done
 Bytes transferred = 983040 (f0000 hex)

 => mmc write 0x30000000 0 0x780

 MMC write: dev # 0, block # 0, count 1920 ... 1920 blocks written: OK
 => reset


 2. USING USB FAT DRIVE
 =======================

 Copy fastboot.bin to any partition on a FAT32 formated usb flash drive.
 Enter the uboot prompt

 => fatls usb 0:2
    983040   fastboot.bin

 1 file(s), 0 dir(s)

 => fatload usb 0:2 0x30000000 fastboot.bin
 reading fastboot.bin
 983040 bytes read in 44 ms (21.3 MiB/s)

 => mmc write 0x30000000 0 0x780

 MMC write: dev # 0, block # 0, count 1920 ... 1920 blocks written: OK


 ================================================================================
 				BOOT TRACE
 ================================================================================

 Bootrom start
 Boot Media: eMMC
 Decrypt auxiliary code ...OK

 lsadc voltage min: 000000FE, max: 000000FF, aver: 000000FE, index: 00000000

 Entry boot auxiliary code

 Auxiliary code - v1.00
 DDR code - V1.1.2 20160205
 Build: Mar 24 2016 - 17:09:44
 Reg Version:  v134
 Reg Time:     2016/03/18 09:44:55
 Reg Name:     hi3798cv2dmb_hi3798cv200_ddr3_2gbyte_8bitx4_4layers.reg

 Boot auxiliary code success
 Bootrom success

 LOADER:  Switched to aarch64 mode
 LOADER:  Entering ARM TRUSTED FIRMWARE
 LOADER:  CPU0 executes at 0x000ce000

 INFO:    BL1: 0xe1000 - 0xe7000 [size = 24576]
 NOTICE:  Booting Trusted Firmware
 NOTICE:  BL1: v1.3(debug):v1.3-372-g1ba9c60
 NOTICE:  BL1: Built : 17:51:33, Apr 30 2017
 INFO:    BL1: RAM 0xe1000 - 0xe7000
 INFO:    BL1: Loading BL2
 INFO:    Loading image id=1 at address 0xe9000
 INFO:    Image id=1 loaded at address 0xe9000, size = 0x5008
 NOTICE:  BL1: Booting BL2
 INFO:    Entry point address = 0xe9000
 INFO:    SPSR = 0x3c5
 NOTICE:  BL2: v1.3(debug):v1.3-372-g1ba9c60
 NOTICE:  BL2: Built : 17:51:33, Apr 30 2017
 INFO:    BL2: Loading BL31
 INFO:    Loading image id=3 at address 0x129000
 INFO:    Image id=3 loaded at address 0x129000, size = 0x8038
 INFO:    BL2: Loading BL33
 INFO:    Loading image id=5 at address 0x37000000
 INFO:    Image id=5 loaded at address 0x37000000, size = 0x58f17
 NOTICE:  BL1: Booting BL31
 INFO:    Entry point address = 0x129000
 INFO:    SPSR = 0x3cd
 INFO:    Boot bl33 from 0x37000000 for 364311 Bytes
 NOTICE:  BL31: v1.3(debug):v1.3-372-g1ba9c60
 NOTICE:  BL31: Built : 17:51:33, Apr 30 2017
 INFO:    BL31: Initializing runtime services
 INFO:    BL31: Preparing for EL3 exit to normal world
 INFO:    Entry point address = 0x37000000
 INFO:    SPSR = 0x3c9


 U-Boot 2017.05-rc2-00130-gd2255b0 (Apr 30 2017 - 17:51:28 +0200)poplar

 Model: HiSilicon Poplar Development Board
 BOARD: Hisilicon HI3798cv200 Poplar
 DRAM:  1 GiB
 MMC:   Hisilicon DWMMC: 0
 In:    serial@f8b00000
 Out:   serial@f8b00000
 Err:   serial@f8b00000
 Net:   Net Initialization Skipped
 No ethernet found.

 Hit any key to stop autoboot:  0
 starting USB...
 USB0:   USB EHCI 1.00
 scanning bus 0 for devices... 1 USB Device(s) found
 USB1:   USB EHCI 1.00
 scanning bus 1 for devices... 4 USB Device(s) found
        scanning usb for storage devices... 1 Storage Device(s) found
        scanning usb for ethernet devices... 1 Ethernet Device(s) found

 USB device 0:
     Device 0: Vendor: SanDisk Rev: 1.00 Prod: Cruzer Blade
 	    Type: Removable Hard Disk
 	    Capacity: 7632.0 MB = 7.4 GB (15630336 x 512)
 ... is now current device
 Scanning usb 0:1...
 =>
	================================================================================
	Board Information
	================================================================================

	Developed by HiSilicon, the board features the Hi3798C V200 with an
	integrated quad-core 64-bit ARM Cortex A53 processor and high
	performance Mali T720 GPU, making it capable of running any commercial
	set-top solution based on Linux or Android. Its high performance
	specification also supports a premium user experience with up to H.265
	HEVC decoding of 4K video at 60 frames per second.

	SOC Hisilicon Hi3798CV200
	CPU Quad-core ARM Cortex-A53 64 bit
	DRAM DDR3/3L/4 SDRAM interface, maximum 32-bit data width 2 GB
	USB Two USB 2.0 ports One USB 3.0 ports
	CONSOLE USB-micro port for console support
	ETHERNET 1 GBe Ethernet
	PCIE One PCIe 2.0 interfaces
	JTAG 8-Pin JTAG
	EXPANSION INTERFACE Linaro 96Boards Low Speed Expansion slot
	DIMENSION Standard 160×120 mm 96Boards Enterprice Edition form factor
	WIFI 802.11AC 2*2 with Bluetooth
	CONNECTORS One connector for Smart Card One connector for TSI


	================================================================================
	BUILD INSTRUCTIONS
	================================================================================

	Note of warning:
	================

	U-boot has a strong dependency with the l-loader and the arm trusted firmware
	repositories.

	The boot sequence is:
	l-loader --> arm_trusted_firmware --> u-boot

	U-Boot needs to be aware of the BL31 runtime location and size to avoid writing
	over it. Currently, BL31 is being placed below the kernel text offset (check
	poplar.c) but this could change in the future.

	The current version of u-boot has been tested with:
	- https://github.com/Linaro/poplar-l-loader.git

	commit f0988698dcc5c08bd0a8f50aa0457e138a5f438c
	Author: Alex Elder <elder@linaro.org>
	Date: Fri Jun 16 08:57:59 2017 -0500

	l-loader: use external memory region definitions

	The ARM Trusted Firmware code now has a header file that collects
	all the definitions for the memory regions used for its boot stages.
	Include that file where needed, and use the definitions found therein

	Signed-off-by: Alex Elder <elder@linaro.org>


	- https://github.com/Linaro/poplar-arm-trusted-firmware.git

	commit 6ac42dd3be13c99aa8ce29a15073e2f19d935f68
	Author: Alex Elder <elder@linaro.org>
	Date: Fri Jun 16 09:24:50 2017 -0500

	poplar: define memory regions in a separate file

	Separate the definitions for memory regions used for the BL stage
	images and FIP into a new file. The "l-loader" image uses knowledge
	of the sizes and locations of these memory regions, and it can now
	include this (external) header to get these definitions, rather than
	having to make coordinated changes to both code bases.

	The new file has a complete set of definitions (more than may be
	required by one or the other user). It also includes a summary of
	how the boot process works, and how it uses these regions.

	It should now be relatively easy to adjust the sizes and locations
	of these memory regions, or to add to them (e.g. for TEE).

	Signed-off-by: Alex Elder <elder@linaro.org>


	Compile from source:
	====================

	Get all the sources

	> mkdir -p ~/poplar/src ~/poplar/bin
	> cd ~/poplar/src
	> git clone https://github.com/Linaro/poplar-l-loader.git l-loader
	> git clone https://github.com/Linaro/poplar-arm-trusted-firmware.git atf
	> git clone https://github.com/Linaro/poplar-u-boot.git u-boot

	Make sure you are using the correct branch on each one of these repositories.
	The definition of "correct" might change over time (at this moment in time this
	would be the "latest" branch).

	Compile U-Boot:
	===============

	Prerequisite:
	# sudo apt-get install device-tree-compiler

	> cd ~/poplar/src/u-boot
	> make CROSS_COMPILE=aarch64-linux-gnu- poplar_defconfig
	> make CROSS_COMPILE=aarch64-linux-gnu-
	> cp u-boot.bin ~/poplar/bin

	Compile ARM Trusted Firmware (ATF):
	===================================

	> cd ~/poplar/src/atf
	> make CROSS_COMPILE=aarch64-linux-gnu- all fip \
	SPD=none BL33=~/poplar/bin/u-boot.bin DEBUG=1 PLAT=poplar

	Copy resulting binaries
	> cp build/hi3798cv200/debug/bl1.bin ~/poplar/src/l-loader/atf/
	> cp build/hi3798cv200/debug/fip.bin ~/poplar/src/l-loader/atf/

	Compile l-loader:
	=================

	> cd ~/poplar/src/l-loader
	> make clean
	> make CROSS_COMPILE=arm-linux-gnueabi-

	Due to BootROM requiremets, rename l-loader.bin to fastboot.bin:
	> cp l-loader.bin ~/poplar/bin/fastboot.bin


	================================================================================
	FLASH INSTRUCTIONS
	================================================================================

	Two methods:

	Using USB debrick support:
	Copy fastboot.bin to a FAT partition on the USB drive and reboot the
	poplar board while pressing S3(usb_boot).

	The system will execute the new u-boot and boot into a shell which you
	can then use to write to eMMC.

	Using U-BOOT from shell:
	1) using AXIS usb ethernet dongle and tftp
	2) using FAT formated USB drive


	1. TFTP (USB ethernet dongle)
	=============================

	Plug a USB AXIS ethernet dongle on any of the USB2 ports on the Poplar board.
	Copy fastboot.bin to your tftp server.
	In u-boot make sure your network is properly setup.

	Then

	=> tftp 0x30000000 fastboot.bin
	starting USB...
	USB0: USB EHCI 1.00
	scanning bus 0 for devices... 1 USB Device(s) found
	USB1: USB EHCI 1.00
	scanning bus 1 for devices... 3 USB Device(s) found
	scanning usb for storage devices... 0 Storage Device(s) found
	scanning usb for ethernet devices... 1 Ethernet Device(s) found
	Waiting for Ethernet connection... done.
	Using asx0 device
	TFTP from server 192.168.1.4; our IP address is 192.168.1.10
	Filename 'poplar/fastboot.bin'.
	Load address: 0x30000000
	Loading: #################################################################
	#################################################################
	###############################################################
	2 MiB/s
	done
	Bytes transferred = 983040 (f0000 hex)

	=> mmc write 0x30000000 0 0x780

	MMC write: dev # 0, block # 0, count 1920 ... 1920 blocks written: OK
	=> reset


	2. USING USB FAT DRIVE
	=======================

	Copy fastboot.bin to any partition on a FAT32 formated usb flash drive.
	Enter the uboot prompt

	=> fatls usb 0:2
	983040 fastboot.bin

	1 file(s), 0 dir(s)

	=> fatload usb 0:2 0x30000000 fastboot.bin
	reading fastboot.bin
	983040 bytes read in 44 ms (21.3 MiB/s)

	=> mmc write 0x30000000 0 0x780

	MMC write: dev # 0, block # 0, count 1920 ... 1920 blocks written: OK


	================================================================================
	BOOT TRACE
	================================================================================

	Bootrom start
	Boot Media: eMMC
	Decrypt auxiliary code ...OK

	lsadc voltage min: 000000FE, max: 000000FF, aver: 000000FE, index: 00000000

	Entry boot auxiliary code

	Auxiliary code - v1.00
	DDR code - V1.1.2 20160205
	Build: Mar 24 2016 - 17:09:44
	Reg Version: v134
	Reg Time: 2016/03/18 09:44:55
	Reg Name: hi3798cv2dmb_hi3798cv200_ddr3_2gbyte_8bitx4_4layers.reg

	Boot auxiliary code success
	Bootrom success

	LOADER: Switched to aarch64 mode
	LOADER: Entering ARM TRUSTED FIRMWARE
	LOADER: CPU0 executes at 0x000ce000

	INFO: BL1: 0xe1000 - 0xe7000 [size = 24576]
	NOTICE: Booting Trusted Firmware
	NOTICE: BL1: v1.3(debug):v1.3-372-g1ba9c60
	NOTICE: BL1: Built : 17:51:33, Apr 30 2017
	INFO: BL1: RAM 0xe1000 - 0xe7000
	INFO: BL1: Loading BL2
	INFO: Loading image id=1 at address 0xe9000
	INFO: Image id=1 loaded at address 0xe9000, size = 0x5008
	NOTICE: BL1: Booting BL2
	INFO: Entry point address = 0xe9000
	INFO: SPSR = 0x3c5
	NOTICE: BL2: v1.3(debug):v1.3-372-g1ba9c60
	NOTICE: BL2: Built : 17:51:33, Apr 30 2017
	INFO: BL2: Loading BL31
	INFO: Loading image id=3 at address 0x129000
	INFO: Image id=3 loaded at address 0x129000, size = 0x8038
	INFO: BL2: Loading BL33
	INFO: Loading image id=5 at address 0x37000000
	INFO: Image id=5 loaded at address 0x37000000, size = 0x58f17
	NOTICE: BL1: Booting BL31
	INFO: Entry point address = 0x129000
	INFO: SPSR = 0x3cd
	INFO: Boot bl33 from 0x37000000 for 364311 Bytes
	NOTICE: BL31: v1.3(debug):v1.3-372-g1ba9c60
	NOTICE: BL31: Built : 17:51:33, Apr 30 2017
	INFO: BL31: Initializing runtime services
	INFO: BL31: Preparing for EL3 exit to normal world
	INFO: Entry point address = 0x37000000
	INFO: SPSR = 0x3c9


	U-Boot 2017.05-rc2-00130-gd2255b0 (Apr 30 2017 - 17:51:28 +0200)poplar

	Model: HiSilicon Poplar Development Board
	BOARD: Hisilicon HI3798cv200 Poplar
	DRAM: 1 GiB
	MMC: Hisilicon DWMMC: 0
	In: serial@f8b00000
	Out: serial@f8b00000
	Err: serial@f8b00000
	Net: Net Initialization Skipped
	No ethernet found.

	Hit any key to stop autoboot: 0
	starting USB...
	USB0: USB EHCI 1.00
	scanning bus 0 for devices... 1 USB Device(s) found
	USB1: USB EHCI 1.00
	scanning bus 1 for devices... 4 USB Device(s) found
	scanning usb for storage devices... 1 Storage Device(s) found
	scanning usb for ethernet devices... 1 Ethernet Device(s) found

	USB device 0:
	Device 0: Vendor: SanDisk Rev: 1.00 Prod: Cruzer Blade
	Type: Removable Hard Disk
	Capacity: 7632.0 MB = 7.4 GB (15630336 x 512)
	... is now current device
	Scanning usb 0:1...
	=>