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nerves_system_bbb
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2.29.5
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2.29.1
2.29.0
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2.27.0
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2.18.0
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2.17.0
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2.16.1
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2.15.3
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2.15.0
retired
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2.13.4
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2.1.0
2.0.0
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0.5.0
Nerves System - BeagleBone Black, BeagleBone Green, PocketBeagle and more
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nerves_system_bbb
fwup-ops.conf
fwup-ops.conf
# Post-installation firmware operations for the Beaglebone Black
#
# Tasks include:
#
# * `factory-reset` - Clear out the writable filesystem and any other writable
# areas so that they can be re-initialized on the next boot.
# * `prevent-revert` - Prevent `revert` from working until the next firmware
# * `revert` - Revert to the previous firmware if it's still available
# * `validate` - Mark this firmware as a good update.
# * `status` - Print out which partition is active (`a` or `b`)
#
# To use:
#
# 1. Run `fwup -c -f fwup-ops.conf -o ops.fw` and copy ops.fw to
# the device. This is done automatically as part of the Nerves system
# build process. The file is stored in `/usr/share/fwup/ops.fw`.
# 2. On the device, run `fwup -t <task> -d /dev/rootdisk0 --enable-trim /usr/share/fwup/ops.fw`.
# 3. Reboot after running `revert` or `factory-reset`.
#
# It is critical that this is kept in sync with the main fwup.conf.
require-fwup-version="1.0.0"
include("${NERVES_SDK_IMAGES:-.}/fwup_include/fwup-common.conf")
# Location where installed firmware information is stored.
uboot-environment uboot-env {
block-offset = ${UBOOT_ENV_OFFSET}
block-count = ${UBOOT_ENV_COUNT}
}
##
# factory-reset
##
task factory-reset {
on-init {
info("Erasing all writable data")
# This requires --enable-trim
trim(${APP_PART_OFFSET}, ${APP_PART_COUNT})
raw_memset(${APP_PART_OFFSET}, 256, 0xff)
}
}
##
# prevent-revert
#
# Pass `--enable-trim` to also clear out the partition that no longer should be used.
##
task prevent-revert.a {
# Check that we're running on B
require-uboot-variable(uboot-env, "nerves_fw_active", "b")
on-init {
info("Preventing reverts to partition A")
# Remove U-Boot variables that fwup uses to allow reverting images
uboot_unsetenv(uboot-env, "a.nerves_fw_platform")
uboot_unsetenv(uboot-env, "a.nerves_fw_architecture")
# Clear out the old image using TRIM. This requires --enable-trim
trim(${ROOTFS_A_PART_OFFSET}, ${ROOTFS_A_PART_COUNT})
fat_rm(${BOOT_PART_OFFSET}, "zImage.a")
}
}
task prevent-revert.b {
# Check that we're running on A
require-uboot-variable(uboot-env, "nerves_fw_active", "a")
on-init {
info("Preventing reverts to partition B")
# Remove U-Boot variables that fwup uses to allow reverting images
uboot_unsetenv(uboot-env, "b.nerves_fw_platform")
uboot_unsetenv(uboot-env, "b.nerves_fw_architecture")
# Clear out the old image using TRIM. This requires --enable-trim
trim(${ROOTFS_B_PART_OFFSET}, ${ROOTFS_B_PART_COUNT})
fat_rm(${BOOT_PART_OFFSET}, "zImage.b")
}
}
task prevent-revert.fail {
on-init {
error("Error detecting active partition")
}
}
##
# revert
##
task revert.a {
# This task reverts to the A partition, so check that we're running on B
require-uboot-variable(uboot-env, "nerves_fw_active", "b")
# Verify that partition A has the expected platform/architecture
require-uboot-variable(uboot-env, "a.nerves_fw_platform", "${NERVES_FW_PLATFORM}")
require-uboot-variable(uboot-env, "a.nerves_fw_architecture", "${NERVES_FW_ARCHITECTURE}")
on-init {
info("Reverting to partition A")
# Switch over
uboot_setenv(uboot-env, "nerves_fw_active", "a")
uboot_setenv(uboot-env, "nerves_fw_validated", "1")
}
}
task revert.b {
# This task reverts to the B partition, so check that we're running on A
require-uboot-variable(uboot-env, "nerves_fw_active", "a")
# Verify that partition B has the expected platform/architecture
require-uboot-variable(uboot-env, "b.nerves_fw_platform", "${NERVES_FW_PLATFORM}")
require-uboot-variable(uboot-env, "b.nerves_fw_architecture", "${NERVES_FW_ARCHITECTURE}")
on-init {
info("Reverting to partition B")
# Switch over
uboot_setenv(uboot-env, "nerves_fw_active", "b")
uboot_setenv(uboot-env, "nerves_fw_validated", "1")
}
}
task revert.unexpected.a {
require-uboot-variable(uboot-env, "a.nerves_fw_platform", "${NERVES_FW_PLATFORM}")
require-uboot-variable(uboot-env, "a.nerves_fw_architecture", "${NERVES_FW_ARCHITECTURE}")
on-init {
# Case where A is good, and the desire is to go to B.
error("It doesn't look like there's anything to revert to in partition B.")
}
}
task revert.unexpected.b {
require-uboot-variable(uboot-env, "b.nerves_fw_platform", "${NERVES_FW_PLATFORM}")
require-uboot-variable(uboot-env, "b.nerves_fw_architecture", "${NERVES_FW_ARCHITECTURE}")
on-init {
# Case where B is good, and the desire is to go to A.
error("It doesn't look like there's anything to revert to in partition A.")
}
}
task revert.wrongplatform {
on-init {
error("Expecting platform=${NERVES_FW_PLATFORM} and architecture=${NERVES_FW_ARCHITECTURE}")
}
}
##
# status
#
# Run "fwup /usr/share/fwup/ops.fw -t status -d /dev/rootdisk0 -q -U" to check the status.
##
task status.aa {
require-path-on-device("/", "/dev/mmcblk0p2")
require-uboot-variable(uboot-env, "nerves_fw_active", "a")
on-init { info("a") }
}
task status.ab {
require-path-on-device("/", "/dev/mmcblk0p2")
require-uboot-variable(uboot-env, "nerves_fw_active", "b")
on-init { info("a->b") }
}
task status.bb {
require-path-on-device("/", "/dev/mmcblk0p3")
require-uboot-variable(uboot-env, "nerves_fw_active", "b")
on-init { info("b") }
}
task status.ba {
require-path-on-device("/", "/dev/mmcblk0p3")
require-uboot-variable(uboot-env, "nerves_fw_active", "a")
on-init { info("b->a") }
}
task status.fail {
on-init { error("fail") }
}
##
# validate
##
task validate {
on-init {
info("Validate")
uboot_setenv(uboot-env, "nerves_fw_validated", "1")
uboot_setenv(uboot-env, "upgrade_available", "0")
uboot_setenv(uboot-env, "bootcount", "1")
}
}