# # U-Boot bootscript for EMMC/SD images created by Yocto. # # As the first step in the boot script, check if we are using DualBoot and # if an upgrade is available. This requires the script to change some variables # and save them, while the rest of the script changes variables only temporarily # without saving them. # Dual boot update verification if test "${dualboot}" = "yes"; then if test "${upgrade_available}" = "1"; then echo "Update detected; Booting new system in ${active_system} (try ${bootcount})" else if test "${active_system}" = "linux_a"; then echo "Booting from system A" part number mmc ${mmcbootdev} linux_a pi setenv mmcpart ${pi} # Save the partition index on variable rootfs_a_index part number mmc ${mmcbootdev} rootfs_a rootfs_a_index # Save the rootfs_a UUID into mmcroot_a part uuid mmc ${mmcbootdev}:${rootfs_a_index} mmcroot_a setenv mmcroot PARTUUID=${mmcroot_a} else echo "Booting from system B" part number mmc ${mmcbootdev} linux_b pi setenv mmcpart ${pi} # Save the partition index on variable rootfs_b_index part number mmc ${mmcbootdev} rootfs_b rootfs_b_index # Save the rootfs_b UUID into mmcroot_b part uuid mmc ${mmcbootdev}:${rootfs_b_index} mmcroot_b setenv mmcroot PARTUUID=${mmcroot_b} fi fi else # Get the UUID of the configured boot partition. part uuid mmc ${mmcbootdev}:${mmcpart} bootpart # Check the boot source. if test "${bootpart}" = "${part1_uuid}"; then # We are booting from the eMMC using 'linux'. true elif test "${bootpart}" = "${part2_uuid}"; then # We are booting from the eMMC using 'recovery'. setenv boot_initrd true setenv initrd_file uramdisk-recovery.img else # We are booting from the SD card. setenv mmcroot /dev/mmcblk${mmcbootdev}p2 fi fi # Back up environment variables setenv ORIG_overlays ${overlays} setenv ORIG_extra_bootargs ${extra_bootargs} # Set SOC type to "imx8qxp" if not already defined by U-Boot if test ! -n "${soc_type}"; then setenv soc_type "imx8qxp" fi # # Determine overlays to apply depending on the hardware capabilities # described by the HWID, SOM version, and carrier board version. # if test -n "${module_ram}"; then setexpr module_has_wifi ${hwid_3} \& 1 setexpr module_has_bt ${hwid_3} \& 2 setexpr module_has_bt ${module_has_bt} / 2 if test "${module_has_bt}" = "1" && test -z "${disable_bt}"; then setenv overlays _ov_som_bt_ccimx8x.dtbo,${overlays} fi if test "${module_has_wifi}" = "1" && test -z "${disable_wifi}"; then setenv overlays _ov_som_wifi_ccimx8x.dtbo,${overlays} fi else # # Set overlays depending on the hardware variant # if test "${module_variant}" = "0x01"; then setenv overlays _ov_som_bt_ccimx8x.dtbo,_ov_som_wifi_ccimx8x.dtbo,${overlays} elif test "${module_variant}" = "0x02"; then setenv overlays _ov_som_bt_ccimx8x.dtbo,_ov_som_wifi_ccimx8x.dtbo,${overlays} elif test "${module_variant}" = "0x04"; then setenv overlays _ov_som_bt_ccimx8x.dtbo,_ov_som_wifi_ccimx8x.dtbo,${overlays} fi fi # Apply QXP overlay if the SOC type is "imx8qxp" if test "${soc_type}" = "imx8qxp"; then setenv overlays _ov_som_quad_ccimx8x.dtbo,${overlays} fi # Apply SBCv3 overlay if the board_version is 3 or lesser if test "${board_version}" -le "3"; then setenv overlays _ov_board_v1-v3_ccimx8x-sbc-pro.dtbo,${overlays} fi setenv extra_bootargs fbcon=logo-pos:center fbcon=logo-count:1 ${extra_bootargs} dboot linux mmc ${mmcbootdev}:${mmcpart} # We only get here in case of an error on the dboot command. # Undo changes to environment variables setenv overlays ${ORIG_overlays} setenv ORIG_overlays setenv extra_bootargs ${ORIG_extra_bootargs} setenv ORIG_extra_bootargs