u-boot/include/configs/bcm_ns3.h
Tom Rini 91092132ba global: Move remaining CONFIG_SYS_NS16550_* to CFG_SYS_NS16550_*
The rest of the unmigrated CONFIG symbols in the CONFIG_SYS_NS16550
namespace do not easily transition to Kconfig. In many cases they likely
should come from the device tree instead. Move these out of CONFIG
namespace and in to CFG namespace.

Signed-off-by: Tom Rini <trini@konsulko.com>
Reviewed-by: Simon Glass <sjg@chromium.org>
2022-12-05 16:06:07 -05:00

801 lines
21 KiB
C

/* SPDX-License-Identifier: GPL-2.0+ */
/*
* Copyright 2020 Broadcom.
*
*/
#ifndef __BCM_NS3_H
#define __BCM_NS3_H
#include <linux/sizes.h>
#define CONFIG_HOSTNAME "NS3"
/* Physical Memory Map */
#define V2M_BASE 0x80000000
#define PHYS_SDRAM_1 V2M_BASE
#define CONFIG_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 */