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nerves_system_br

0.4.1
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Nerves System BR - Buildroot based build platform for Nerves Systems

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nerves_system_br board ag150 fwup.conf
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board/ag150/fwup.conf

# Firmware configuration file for the AG150 (Atom N2800)
define(FINALIZE_FW, "/tmp/finalize.fw")
# Default paths if not specified via the commandline
define(ROOTFS, "${NERVES_SYSTEM}/images/rootfs.squashfs")
# This configuration file will create an image that
# has an MBR and the following 3 partitions:
#
# +----------------------------+
# | MBR |
# +----------------------------+
# | Boot partition (FAT16) |
# | syslinux.cfg |
# | bzImage |
# +----------------------------+
# | p1*: Rootfs A (squashfs) |
# +----------------------------+
# | p1*: Rootfs B (squashfs) |
# +----------------------------+
# | p2: Application (FAT32) |
# +----------------------------+
#
# The p1 partition points to whichever of Rootfs A or B that
# is active.
# The boot partition contains syslinux, 2 Linux kernels,
# and the bootloader configuration. 16 MB should be plenty.
define(BOOT_PART_OFFSET, 63)
define(BOOT_PART_COUNT, 31232)
# Let the rootfs have room to grow up to 128 MiB
define(ROOTFS_A_PART_OFFSET, 32768)
define(ROOTFS_A_PART_COUNT, 262144)
define(ROOTFS_B_PART_OFFSET, 294912)
define(ROOTFS_B_PART_COUNT, 262144)
# Application partition. This partition can occupy all of the
# remaining space. Size it to fit the destination.
define(APP_PART_OFFSET, 557056)
define(APP_PART_COUNT, 2097152)
# Firmware metadata
meta-product = "Nerves Firmware"
meta-description = ""
meta-version = ${NERVES_SDK_VERSION}
meta-platform = "ag150"
meta-architecture = "x86_atom"
meta-author = "Frank Hunleth"
# File resources are listed in the order that they are included in the .fw file
# This is important, since this is the order that they're written on a firmware
# update due to the event driven nature of the update system.
file-resource bootpart.bin {
host-path = "${NERVES_SYSTEM}/images/bootpart.bin"
}
file-resource syslinux.cfg {
host-path = "${NERVES_SYSTEM}/images/syslinux.cfg"
}
file-resource bzImage {
host-path = "${NERVES_SYSTEM}/images/bzImage"
}
file-resource rootfs.img {
host-path = ${ROOTFS}
}
mbr mbr-a {
bootstrap-code-host-path = "${NERVES_SYSTEM}/images/syslinux/mbr.bin"
partition 0 {
block-offset = ${BOOT_PART_OFFSET}
block-count = ${BOOT_PART_COUNT}
type = 0x1 # FAT12
boot = true
}
partition 1 {
block-offset = ${ROOTFS_A_PART_OFFSET}
block-count = ${ROOTFS_A_PART_COUNT}
type = 0x83 # Linux
}
partition 2 {
block-offset = ${APP_PART_OFFSET}
block-count = ${APP_PART_COUNT}
type = 0xc # FAT32
}
# partition 3 is unused
}
mbr mbr-b {
bootstrap-code-host-path = "${NERVES_SYSTEM}/images/syslinux/mbr.bin"
partition 0 {
block-offset = ${BOOT_PART_OFFSET}
block-count = ${BOOT_PART_COUNT}
type = 0x1 # FAT12
boot = true
}
partition 1 {
block-offset = ${ROOTFS_B_PART_OFFSET}
block-count = ${ROOTFS_B_PART_COUNT}
type = 0x83 # Linux
}
partition 2 {
block-offset = ${APP_PART_OFFSET}
block-count = ${APP_PART_COUNT}
type = 0xc # FAT32
}
# partition 3 is unused
}
# This firmware task writes everything to the destination media
task complete {
# Only match if not mounted
require-unmounted-destination = true
# Everything that gets written can be verified on the fly.
# This speeds things up, since we don't care about detecting
# errors before data gets written.
verify-on-the-fly = true
on-init {
mbr_write(mbr-a)
}
on-resource bootpart.bin { raw_write(${BOOT_PART_OFFSET}) }
on-resource syslinux.cfg { fat_write(${BOOT_PART_OFFSET}, "syslinux.cfg") }
on-resource bzImage { fat_write(${BOOT_PART_OFFSET}, "bzImage") }
on-resource rootfs.img {
# write to the first rootfs partition
raw_write(${ROOTFS_A_PART_OFFSET})
}
on-finish {
# Initialize the app partition last so that the boot
# partition can be written in one go.
fat_mkfs(${APP_PART_OFFSET}, ${APP_PART_COUNT})
fat_setlabel(${APP_PART_OFFSET}, "APPDATA")
}
}
task upgrade.a {
# This task upgrades the A partition
require-partition1-offset = ${ROOTFS_B_PART_OFFSET}
# Since the upgrade won't run until it has been finalized, it's ok
# to write data as it is read.
verify-on-the-fly = true
on-init {
# Erase any old saved files from previous upgrades
fat_rm(${BOOT_PART_OFFSET}, "bzImage.pre")
}
on-resource zImage {
fat_write(${BOOT_PART_OFFSET}, "bzImage.new")
}
on-resource rootfs.img {
# write to the first rootfs partition
raw_write(${ROOTFS_A_PART_OFFSET})
}
on-finish {
# Switch over to boot the new firmware
mbr_write(mbr-a)
fat_mv(${BOOT_PART_OFFSET}, "bzImage", "bzImage.pre")
fat_mv(${BOOT_PART_OFFSET}, "bzImage.new", "bzImage")
}
on-error {
# Clean up in case something goes wrong
fat_rm(${BOOT_PART_OFFSET}, "bzImage.new")
}
}
task upgrade.b {
# This task upgrades the B partition
require-partition1-offset = ${ROOTFS_A_PART_OFFSET}
# Since the upgrade won't run until it has been finalized, it's ok
# to write data as it is read.
verify-on-the-fly = true
on-init {
fat_rm(${BOOT_PART_OFFSET}, "bzImage.pre")
}
on-resource zImage { fat_write(${BOOT_PART_OFFSET}, "bzImage.new") }
on-resource rootfs.img {
# write to the first rootfs partition
raw_write(${ROOTFS_B_PART_OFFSET})
}
on-finish {
# Switch over to boot the new firmware
mbr_write(mbr-b)
fat_mv(${BOOT_PART_OFFSET}, "bzImage", "bzImage.pre")
fat_mv(${BOOT_PART_OFFSET}, "bzImage.new", "bzImage")
}
on-error {
# Clean up in case something goes wrong
fat_rm(${BOOT_PART_OFFSET}, "bzImage.new")
}
}