u-boot/include/configs/bcm_ns3.h
Tom Rini 54f80dd290 Convert CONFIG_HOSTNAME et al to Kconfig
This converts the following to Kconfig:
   CONFIG_GATEWAYIP
   CONFIG_HOSTNAME
   CONFIG_IPADDR
   CONFIG_NETMASK
   CONFIG_ROOTPATH
   CONFIG_SERVERIP
   CONFIG_UBOOTPATH

To do this, we introduce a CONFIG_USE_ form of each of the above and
change include/env_default.h to test for that to be set before setting a
value. Further, we don't want to stringify the IP address related values
as they are now properly strings via Kconfig.

Signed-off-by: Tom Rini <trini@konsulko.com>
2022-12-22 10:31:48 -05:00

799 lines
20 KiB
C

/* SPDX-License-Identifier: GPL-2.0+ */
/*
* Copyright 2020 Broadcom.
*
*/
#ifndef __BCM_NS3_H
#define __BCM_NS3_H
#include <linux/sizes.h>
/* Physical Memory Map */
#define V2M_BASE 0x80000000
#define PHYS_SDRAM_1 V2M_BASE
#define CFG_SYS_SDRAM_BASE PHYS_SDRAM_1
/*
* Initial SP before reloaction is placed at end of first DRAM bank,
* which is 0x1_0000_0000.
* Just before re-loaction, new SP is updated and re-location happens.
* So pointing the initial SP to end of 2GB DDR is not a problem
*/
/* 12MB Malloc size */
/* console configuration */
#define CFG_SYS_NS16550_CLK 25000000
/*
* Increase max uncompressed/gunzip size, keeping size same as EMMC linux
* partition.
*/
/* Access eMMC Boot_1 and Boot_2 partitions */
/* enable 64-bit PCI resources */
#define CONSOLE_ARGS "console_args=console=ttyS0,115200n8\0"
#define MAX_CPUS "max_cpus=maxcpus=8\0"
#define OS_LOG_LEVEL "log_level=loglevel=7\0"
#define EXTRA_ARGS "extra_args=earlycon=uart8250,mmio32,0x68A10000 " \
"earlyelog=" __stringify(ELOG_AP_UART_LOG_BASE) ",0x10000 " \
"crashkernel=512M reboot=w\0"
#define PCIE_ARGS "pcie_args=pci=pcie_bus_safe pcie_ports=native vfio_pci.disable_idle_d3=1\0"
#ifdef CONFIG_BCM_SF2_ETH
#define ETH_ADDR "ethaddr=00:0A:F7:95:65:A4\0"
#define NET_ARGS "bgmac_platform.ethaddr=${ethaddr} " \
"ip=${ipaddr}::${gatewayip}:${netmask}::${ethif}:off"
#else
#define ETH_ADDR
#define NET_ARGS
#endif
#define RESERVED_MEM "reserved_mem=memmap=0xff000000$0x1000000\0"
#define BASE_ARGS "${console_args} ${extra_args} ${pcie_args}" \
" ${max_cpus} ${log_level} ${reserved_mem}"
#define SETBOOTARGS "setbootargs=setenv bootargs " BASE_ARGS " " NET_ARGS "\0"
#define UPDATEME_FLASH_PARAMS "bcm_compat_level=4\0" \
"bcm_need_recovery_rootfs=0\0" \
"bcm_bl_flash_pending_rfs_imgs=0\0"
#define KERNEL_LOADADDR_CFG \
"fit_image_loadaddr=0x90000000\0" \
"dtb_loadaddr=0x82000000\0"
#define INITRD_ARGS "initrd_args=root=/dev/ram rw\0"
#define INITRD_LOADADDR "initrd_loadaddr=0x92000000\0"
#define INITRD_IMAGE "initrd_image=rootfs-lake-bcm958742t.cpio.gz\0"
#define MMC_DEV "sd_device_number=0\0"
#define EXEC_STATE "exec_state=normal\0"
#define EXT4RD_ARGS "ext4rd_args="\
"root=/dev/mmcblk${sd_device_number}p${gpt_partition_entry} rw rootwait\0"
#define WDT_CNTRL "wdt_enable=1\0" \
"wdt_timeout_sec=0\0"
#define ELOG_SETUP \
"mbox0_addr=0x66424024\0"\
"elog_setup="\
"if logsetup -s ${mbox0_addr}; then "\
"else "\
"echo ELOG is not supported by this version of the MCU patch.;"\
"exit;"\
"fi;"\
"if logsetup -c ${mbox0_addr}; then "\
"echo ELOG is ready;"\
"else "\
"echo ELOG is supported, but is not set up.;"\
"echo Getting setup file from the server ${serverip}...;"\
"if tftp ${tftp_dir}elog_src.txt; then "\
"echo Setting up ELOG. Please wait...;"\
"if logsetup ${loadaddr} ${mbox0_addr} ${filesize}; "\
"then "\
"else "\
"echo [logsetup] ERROR.;"\
"fi;"\
"if logsetup -c ${mbox0_addr}; then "\
"echo ELOG is READY.;"\
"else "\
"echo ELOG is NOT SET UP.;"\
"fi;"\
"else "\
"echo ELOG setup file is not available on the server.;"\
"fi;"\
"fi \0"
/* eMMC partition for FIT images */
#define FIT_MMC_PARTITION \
"fit_partitions=" \
"uuid_disk=${uuid_gpt_disk};" \
"name=env,size=512K,uuid=${uuid_gpt_env};" \
"name=Image_rsa.img,size=24MiB,uuid=${uuid_gpt_linux};" \
"name=Image1_rsa.img,size=24MiB,uuid=${uuid_gpt_linux1};" \
"name=Image2_rsa.img,size=24MiB,uuid=${uuid_gpt_linux2};" \
"name=nitro,size=8MiB,uuid=${uuid_gpt_nitro};" \
"name=recovery,size=940MiB,uuid=${uuid_gpt_recovery};" \
"name=rootfs,size=-,uuid=${uuid_gpt_prootfs}\0"
#define QSPI_FLASH_NITRO_PARAMS \
"spi_nitro_img_bin_start=0x400000\0" \
"spi_nitro_img_bin_mirror_start=0x580000\0" \
"spi_nitro_bspd_cfg_start=0x700000\0" \
"spi_nitro_bspd_mirror_cfg_start=0x710000\0" \
#define QSPI_ACCESS_ENABLE \
"qspi_access_en=" \
"mw 0x68a403e8 1;" \
"mw 0x68a403ec 1;" \
"mw 0x68a403f0 1;" \
"mw 0x68a403f4 1;" \
"mw 0x68a403f8 1;" \
"mw 0x68a403fc 1 \0"
#define FUNC_QSPI_PROBE \
"func_qspi_probe="\
"if run qspi_access_en; then "\
"else "\
"echo ${errstr} run qspi_access_en ** FAILED **;"\
"exit;"\
"fi;"\
"if sf probe 0; then "\
"else "\
"echo echo ${errstr} sf probe command ** FAILED **;"\
"exit;"\
"fi \0"
#define NITRO_FW_IMAGES \
"nitro_bin=nitro.img\0" \
"nitro_bspd_cfg=nitro_fb_bspd_config.bin\0"
#define FASTBOOT_NITRO_SETUP \
"nitro_fastboot_type=1\0" \
"nitro_fastboot_secure=1\0" \
"nitro_fastboot_img_buffer=0\0" \
"nitro_fit_img_loc=0x90000000\0"
#define FASTBOOT_SETUP \
"fastboot_nitro_setup=" \
"setenv errstr fastboot_setup;" \
"run func_qspi_probe;" \
/* first load header only */ \
"if sf read ${nitro_fit_img_loc} "\
"${spi_nitro_img_bin_start} 0x18; then "\
"else "\
"echo [fastboot_nitro_setup] sf read "\
"${spi_nitro_img_bin_start} ** FAILED **;"\
"exit;"\
"fi;"\
"if spi_nitro_images_addr ${nitro_fit_img_loc} "\
"${spi_nitro_img_bin_start}; then "\
"else "\
"echo [fastboot_nitro_setup] spi_nitro_images_addr "\
"** FAILED **;"\
"exit;"\
"fi \0"
#define CHECK_CHIMP_HS\
"check_chimp_hs=chimp_hs"\
"\0"
#define FASTBOOT_NITRO "fastboot_nitro=chimp_ld_secure\0"
#define FIT_IMAGE "fit_image=Image_rsa.img\0"
#define BOOTCMD_MMC_FIT \
"bootcmd_mmc_fit="\
"mmc dev ${sd_device_number};"\
"if test $exec_state = normal; then " \
"setenv use_rootfs rootfs;"\
"else " \
"setenv use_rootfs recovery;"\
"fi;" \
"echo used filesystem :${use_rootfs};"\
"gpt setenv mmc ${sd_device_number} ${use_rootfs};"\
"setenv bootargs_fs ${setbootargs} ${ext4rd_args}; run bootargs_fs;"\
"gpt setenv mmc ${sd_device_number} ${fit_image};"\
"mmc read ${fit_image_loadaddr} ${gpt_partition_addr} "\
"${gpt_partition_size};"\
"bootm ${fit_image_loadaddr}\0"
#define BOOTCMD_MMC_FITS \
"bootcmd_mmc_fits="\
"setenv mmc_fit0 " \
"'setenv fit_image Image_rsa.img; run bootcmd_mmc_fit';"\
"setenv mmc_fit1 " \
"'setenv fit_image Image1_rsa.img; run bootcmd_mmc_fit';"\
"setenv mmc_fit2 " \
"'setenv fit_image Image2_rsa.img; run bootcmd_mmc_fit';"\
"run mmc_fit0 || run mmc_fit1 || run mmc_fit2\0"
#define USBDEV "usbdev=0\0"
#define BOOTCMD_USB\
"bootcmd_usb="\
"setenv usb_image_loadaddr 90000000;"\
"setenv fit_image Image_rsa.img;"\
"setenv bootargs_fs ${setbootargs} ${initrd_args}; run bootargs_fs;"\
"if usb dev ${usbdev}; && usb start; then "\
"echo Booting from USB...;"\
"fatload usb ${usbdev} ${usb_image_loadaddr} ${fit_image};"\
"fatload usb ${usbdev} ${initrd_loadaddr} ${initrd_image};"\
"bootm ${usb_image_loadaddr} ${initrd_loadaddr}:${filesize};"\
"fi;"\
"\0"
#define START_PCI\
"start_pci=pci e "\
"\0"
#define BNXT_LOAD\
"bnxt_load=bnxt 0 probe "\
"\0"
#define BOOTCMD_PXE\
"bootcmd_pxe="\
"run check_chimp_hs && "\
"run start_pci && "\
"run bnxt_load;"\
"setenv ethact bnxt_eth0;"\
"setenv autoload no;"\
"setenv bootargs_fs ${setbootargs} ${initrd_args}; run bootargs_fs;"\
"if dhcp; then "\
"setenv pxefile_addr_r ${loadaddr};"\
"if pxe get; then "\
"setenv ramdisk_addr_r ${initrd_loadaddr};"\
"setenv kernel_addr_r ${fit_image_loadaddr};"\
"pxe boot; "\
"fi;"\
"fi;"\
"\0"
#define FLASH_PENDING_RFS_IMGS \
"flash_pending_rfs_imgs=" \
"if test $bcm_bl_flash_pending_rfs_imgs = 1; then " \
"if test $bl_flash_pending_rfs_imgs = rootfs; then " \
"dhcp;" \
"run mmc_flash_rootfs;" \
"fi;" \
"if test $bl_flash_pending_rfs_imgs = recovery; then " \
"dhcp;" \
"run mmc_flash_recovery;" \
"fi;" \
"setenv bl_flash_pending_rfs_imgs;" \
"fi; \0"
/* Flashing commands */
#define TFTP_QSPI_PARAM \
"fip_qspi_addr=0x0\0"\
"fip_qspi_mirror_addr=0x200000\0"\
"loadaddr=0x90000000\0"\
"tftpblocksize=1468\0"\
"qspi_flash_fip=fip\0"\
/* Flash fit_GPT partition to eMMC */
#define MMC_FLASH_FIT_GPT \
"mmc_flash_gpt="\
"if mmc dev ${sd_device_number}; then "\
"else "\
"echo [mmc_flash_gpt] mmc dev ${sd_device_number} "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if gpt write mmc ${sd_device_number} ${fit_partitions}; then "\
"else "\
"echo [mmc_flash_gpt] gpt write ${fit_partitions} "\
"** FAILED **;"\
"exit;"\
"fi \0"
#define MMC_FLASH_IMAGE_RSA \
"mmc_flash_image_rsa="\
"if mmc dev ${sd_device_number}; then "\
"else "\
"echo [mmc_flash_image_rsa] mmc dev ${sd_device_number} "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if gpt setenv mmc ${sd_device_number} ${fit_image}; then "\
"else "\
"echo [mmc_flash_image_rsa] gpt setenv ${fit_image} "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if tftp ${loadaddr} ${tftp_dir}${fit_image}; then "\
"if test ${fit_image} = Image_rsa.img; then "\
"if setenv tftp_fit_image yes; then "\
"else "\
"echo [mmc_flash_image_rsa] "\
"setenv tftp_fit_image to yes"\
"** FAILED **;"\
"exit;"\
"fi;"\
"fi;"\
"else "\
"if test ${fit_image} = Image_rsa.img; then "\
"echo [mmc_flash_image_rsa] tftp "\
"${tftp_dir}${fit_image} ** FAILED **;"\
"else "\
"if test ${tftp_fit_image} = yes; then "\
"if mmc write ${loadaddr} "\
"${gpt_partition_addr} "\
"${fileblocks}; then "\
"else "\
"echo "\
"[mmc_flash_image_rsa] "\
"mmc write "\
"${gpt_partition_addr} "\
"** FAILED **;"\
"exit;"\
"fi;"\
"else "\
"echo [mmc_flash_image_rsa] tftp "\
"${tftp_dir}${fit_image} "\
"** FAILED **;"\
"fi;"\
"fi;"\
"exit;"\
"fi;"\
"if math add filesize filesize 1FF; then "\
"else "\
"echo [mmc_flash_image_rsa] math add command ** FAILED **;"\
"exit;"\
"fi;"\
"if math div fileblocks filesize 200; then "\
"else "\
"echo [mmc_flash_image_rsa] math div command ** FAILED **;"\
"exit;"\
"fi;"\
"if mmc write ${loadaddr} ${gpt_partition_addr} ${fileblocks}; then "\
"else "\
"echo [mmc_flash_image_rsa] mmc write ${gpt_partition_addr} "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if setenv image_sz_blk_cnt ${fileblocks}; then "\
"else "\
"echo [mmc_flash_image_rsa] setenv image_sz_blk_cnt ** "\
"FAILED **;"\
"exit;"\
"fi;"\
"if saveenv; then "\
"else "\
"echo [mmc_flash_image_rsa] saveenv command ** FAILED **;"\
"exit;"\
"fi \0"
#define MMC_FLASH_RECOVERY \
"mmc_flash_recovery="\
"if mmc dev ${sd_device_number}; then "\
"else "\
"echo [mmc_flash_recovery] mmc dev ${sd_device_number} "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if gpt setenv mmc ${sd_device_number} recovery; then "\
"else "\
"echo [mmc_flash_recovery] gpt setenv recovery ** FAILED **;"\
"exit;"\
"fi;"\
"setenv index 1;"\
"while tftp ${loadaddr} "\
"${tftp_dir}${gpt_partition_name}/chunk_00${index}; do "\
"if math add filesize filesize 1FF; then "\
"else "\
"echo [mmc_flash_recovery] math add command "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if math div fileblocks filesize 200; then "\
"else "\
"echo [mmc_flash_recovery] math div command "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if mmc write ${loadaddr} ${gpt_partition_addr} "\
"${fileblocks}; then "\
"else "\
"echo [mmc_flash_recovery] mmc write "\
"${gpt_partition_addr} ** FAILED **;"\
"exit;"\
"fi;"\
"if math add index index 1; then "\
"else "\
"echo [mmc_flash_recovery] math add command "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if math add gpt_partition_addr gpt_partition_addr"\
" ${fileblocks}; then "\
"else "\
"echo [mmc_flash_recovery] math add command"\
" ** FAILED **;"\
"exit;"\
"fi;"\
"done;"\
"if itest ${index} -ne 1; then "\
"else "\
"echo [mmc_flash_recovery] "\
"${tftp_dir}${gpt_partition_name}/chunk_00${index} file "\
"not found ** FAILED **;"\
"exit;"\
"fi \0"
#define MMC_FLASH_ROOTFS \
"mmc_flash_rootfs="\
"if mmc dev ${sd_device_number}; then "\
"else "\
"echo [mmc_flash_rootfs] mmc dev ${sd_device_number} "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if gpt setenv mmc ${sd_device_number} rootfs; then "\
"else "\
"echo [mmc_flash_rootfs] gpt setenv rootfs ** FAILED **;"\
"exit;"\
"fi;"\
"setenv index 1;"\
"while tftp ${loadaddr} "\
"${tftp_dir}${gpt_partition_name}/chunk_00${index}; do "\
"if math add filesize filesize 1FF; then "\
"else "\
"echo [mmc_flash_rootfs] math add command "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if math div fileblocks filesize 200; then "\
"else "\
"echo [mmc_flash_rootfs] math div command "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if mmc write ${loadaddr} ${gpt_partition_addr} "\
"${fileblocks}; then "\
"else "\
"echo [mmc_flash_rootfs] mmc write "\
"${gpt_partition_addr} ** FAILED **;"\
"exit;"\
"fi;"\
"if math add index index 1; then "\
"else "\
"echo [mmc_flash_rootfs] math add command "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if math add gpt_partition_addr gpt_partition_addr"\
" ${fileblocks}; then "\
"else "\
"echo [mmc_flash_rootfs] math add command"\
" ** FAILED **;"\
"exit;"\
"fi;"\
"done;"\
"if itest ${index} -ne 1; then "\
"else "\
"echo [mmc_flash_rootfs] "\
"${tftp_dir}${gpt_partition_name}/chunk_00${index} file "\
"not found ** FAILED **;"\
"exit;"\
"fi \0"
/*
* For individual flash commands like mmc_flash_gpt, it is not
* necessary to check for errors.
* If any of its intermediate commands fails, then next commands
* will not execute. Script will exit from the failure command.
* For uniformity, checking for mmc_flash_gpt, mmc_flash_image_rsa
* mmc_flash_nitro and mmc_flash_rootfs
*/
#define MMC_FLASH \
"flash_mmc="\
"if run mmc_flash_gpt; then "\
"else "\
"echo [flash_mmc] run mmc_flash_gpt ** FAILED **;"\
"exit;"\
"fi;"\
"if setenv tftp_fit_image no; then "\
"else "\
"echo [flash_mmc] setenv tftp_fit_image to no "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if setenv fit_image Image_rsa.img; then "\
"else "\
"echo [flash_mmc] setenv fit_image to Image_rsa.img "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if run mmc_flash_image_rsa; then "\
"else "\
"echo [flash_mmc] run mmc_flash_image_rsa ** FAILED **;"\
"exit;"\
"fi;"\
"if setenv fit_image Image1_rsa.img; then "\
"else "\
"echo [flash_mmc] setenv fit_image to Image1_rsa.img "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if run mmc_flash_image_rsa; then "\
"else "\
"echo [flash_mmc] run mmc_flash_image_rsa "\
"for Image1_rsa.img ** FAILED **;"\
"exit;"\
"fi;"\
"if setenv fit_image Image2_rsa.img; then "\
"else "\
"echo [flash_mmc] setenv fit_image to Image2_rsa.img "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if run mmc_flash_image_rsa; then "\
"else "\
"echo [flash_mmc] run mmc_flash_image_rsa "\
"for Image2_rsa.img ** FAILED **;"\
"exit;"\
"fi;"\
"if run mmc_flash_recovery; then "\
"else "\
"echo [flash_mmc] run mmc_flash_recovery ** FAILED **;"\
"exit;"\
"fi;"\
"if run mmc_flash_rootfs; then "\
"else "\
"echo [flash_mmc] run mmc_flash_rootfs ** FAILED **;"\
"exit;"\
"fi \0"
#define FUNC_ALIGN_QSPI_ERASE_BLOCK_SIZE \
"align_erase_blk_size=" \
"setenv fl_write_size 0;" \
"if math add fl_write_size filesize FFFF; then "\
"else "\
"echo ${errstr} math add command ** FAILED **;"\
"exit;"\
"fi;"\
"if math div fl_write_size fl_write_size 10000; then "\
"else "\
"echo ${errstr} math div command ** FAILED **;"\
"exit;"\
"fi;"\
"if math mul fl_write_size fl_write_size 10000; then "\
"else "\
"echo ${errstr} math mul command ** FAILED **;"\
"exit;"\
"fi \0"
#define QSPI_FLASH_FIP \
"flash_fip="\
"if run qspi_access_en; then "\
"else "\
"echo [flash_fip] run qspi_access_en ** FAILED **;"\
"exit;"\
"fi;"\
"if tftp ${loadaddr} ${tftp_dir}fip.bin; then "\
"else "\
"echo [flash_fip] tftp ${tftp_dir}fip.bin "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if math add tmpsize filesize FFFF; then "\
"else "\
"echo [flash_fip] math add command ** FAILED **;"\
"exit;"\
"fi;"\
"if math div tmpsize tmpsize 10000; then "\
"else "\
"echo [flash_fip] math div command ** FAILED **;"\
"exit;"\
"fi;"\
"if math mul tmpsize tmpsize 10000; then "\
"else "\
"echo [flash_fip] math mul command ** FAILED **;"\
"exit;"\
"fi;"\
"if sf probe 0; then "\
"else "\
"echo [flash_fip] sf probe command ** FAILED **;"\
"exit;"\
"fi;"\
"if sf erase ${fip_qspi_addr} ${tmpsize}; then "\
"else "\
"echo [flash_fip] sf erase ${fip_qspi_addr} ** FAILED **;"\
"exit;"\
"fi;"\
"if sf write ${loadaddr} ${fip_qspi_addr} ${filesize}; then "\
"else "\
"echo [flash_fip] sf write ${fip_qspi_addr} ** FAILED **;"\
"exit;"\
"fi;"\
/* Flash mirror FIP image */ \
"if sf erase ${fip_qspi_mirror_addr} ${tmpsize}; then "\
"else "\
"echo [flash_fip] sf erase ${fip_qspi_mirror_addr} "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if sf write ${loadaddr} ${fip_qspi_mirror_addr} ${filesize}; then "\
"else "\
"echo [flash_fip] sf write ${fip_qspi_mirror_addr} "\
"** FAILED **;"\
"exit;"\
"fi \0"
#define QSPI_FLASH_NITRO \
"flash_nitro="\
"run func_qspi_probe; "\
"if tftp ${loadaddr} ${tftp_dir}${nitro_bin}; then "\
"else "\
"echo [flash_nitro] tftp ${tftp_dir}${nitro_bin} "\
"** FAILED **;"\
"exit;"\
"fi;"\
"setenv errstr flash_nitro;" \
"run align_erase_blk_size;" \
/* Flash Nitro fw fit + configuration */ \
"if sf erase ${spi_nitro_img_bin_start} ${fl_write_size}; then "\
"else "\
"echo [flash_nitro] sf erase ${spi_nitro_img_bin_start} "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if sf write ${loadaddr} ${spi_nitro_img_bin_start}" \
" ${fl_write_size}; then "\
"else "\
"echo [flash_nitro] sf write ${spi_nitro_bin_start} "\
"** FAILED **;"\
"exit;"\
"fi;"\
/* Mirror of Flash Nitro fw fit + configuration */ \
"if sf erase ${spi_nitro_img_bin_mirror_start} ${fl_write_size}; then "\
"else "\
"echo [flash_nitro] sf erase "\
"${spi_nitro_img_bin_mirror_start} "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if sf write ${loadaddr} ${spi_nitro_img_bin_mirror_start}" \
" ${fl_write_size}; then "\
"else "\
"echo [flash_nitro] sf write "\
"${spi_nitro_img_bin_mirror_start} "\
"** FAILED **;"\
"exit;"\
"fi \0"
#define QSPI_FLASH_NITRO_BSPD_CONFIG \
"flash_nitro_bspd_config="\
"run func_qspi_probe; "\
/* Flash BSPD configuration */ \
"if tftp ${loadaddr} ${tftp_dir}${nitro_bspd_cfg}; then "\
"setenv bspd_cfg_avialable 1; "\
"setenv errstr flash_nitro_bspd_config; "\
"run align_erase_blk_size;" \
"if sf erase ${spi_nitro_bspd_cfg_start} "\
"${fl_write_size}; then "\
"else "\
"echo [flash_nitro] sf erase "\
"${spi_nitro_bspd_cfg_start} "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if sf write ${loadaddr} ${spi_nitro_bspd_cfg_start} "\
"${fl_write_size}; then "\
"else "\
"echo [flash_nitro] sf write "\
"${spi_nitro_bspd_cfg_start} "\
"** FAILED **;"\
"exit;"\
"fi;" \
/* Flash BSPD mirror configuration */ \
"if sf erase ${spi_nitro_bspd_mirror_cfg_start} "\
"${fl_write_size}; then "\
"else "\
"echo [flash_nitro] sf erase "\
"${spi_nitro_bspd_mirror_cfg_start} "\
"** FAILED **;"\
"exit;"\
"fi;"\
"if sf write ${loadaddr} ${spi_nitro_bspd_mirror_cfg_start} "\
"${fl_write_size}; then "\
"else "\
"echo [flash_nitro] sf write "\
"${spi_nitro_bspd_mirror_cfg_start} "\
"** FAILED **;"\
"exit;"\
"fi;" \
"else "\
"echo [flash_nitro] tftp ${tftp_dir}${nitro_bspd_cfg} "\
"** Skip flashing bspd config file **;"\
"fi \0"
#define QSPI_FLASH \
"flash_qspi="\
"if run qspi_access_en; then "\
"else "\
"echo [flash_qspi] run qspi_access_en ** FAILED **;"\
"exit;"\
"fi;"\
"if run flash_fip; then "\
"else "\
"echo [flash_qspi] run flash_fip ** FAILED **;"\
"exit;"\
"fi;"\
"if run flash_nitro; then "\
"else "\
"echo [flash_qspi] run flash_nitro ** FAILED **;"\
"exit;"\
"fi \0"
#define FLASH_IMAGES \
"flash_images=" \
"if run flash_qspi; then "\
"else "\
"echo [flash_images] run flash_qspi ** FAILED **;"\
"exit;"\
"fi;"\
"if run flash_mmc; then "\
"else "\
"echo [flash_images] run flash_mmc ** FAILED **;"\
"exit;"\
"fi \0"
#define ARCH_ENV_SETTINGS \
CONSOLE_ARGS \
MAX_CPUS \
OS_LOG_LEVEL \
EXTRA_ARGS \
PCIE_ARGS \
ETH_ADDR \
RESERVED_MEM \
SETBOOTARGS \
UPDATEME_FLASH_PARAMS \
KERNEL_LOADADDR_CFG\
INITRD_ARGS \
INITRD_LOADADDR \
INITRD_IMAGE \
MMC_DEV \
EXEC_STATE \
EXT4RD_ARGS \
WDT_CNTRL \
ELOG_SETUP \
FIT_MMC_PARTITION \
QSPI_FLASH_NITRO_PARAMS \
QSPI_ACCESS_ENABLE \
FUNC_QSPI_PROBE \
NITRO_FW_IMAGES \
FASTBOOT_NITRO_SETUP \
FASTBOOT_SETUP \
CHECK_CHIMP_HS \
FASTBOOT_NITRO \
FIT_IMAGE \
BOOTCMD_MMC_FIT \
BOOTCMD_MMC_FITS \
USBDEV \
BOOTCMD_USB \
START_PCI \
BNXT_LOAD \
BOOTCMD_PXE \
FLASH_PENDING_RFS_IMGS \
TFTP_QSPI_PARAM \
MMC_FLASH_FIT_GPT \
MMC_FLASH_IMAGE_RSA \
MMC_FLASH_RECOVERY \
MMC_FLASH_ROOTFS \
MMC_FLASH \
FUNC_ALIGN_QSPI_ERASE_BLOCK_SIZE \
QSPI_FLASH_FIP \
QSPI_FLASH_NITRO \
QSPI_FLASH_NITRO_BSPD_CONFIG \
QSPI_FLASH \
FLASH_IMAGES
#define CONFIG_EXTRA_ENV_SETTINGS \
ARCH_ENV_SETTINGS
#endif /* __BCM_NS3_H */