postinst/postinst.sh - platform/system/extras - Git at Google

 #!/system/bin/sh

 #
 # Copyright (C) 2015 The Android Open Source Project
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #      http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 #

 # This is an example post-install script. This script will be executed by the
 # update_engine right after finishing writing all the partitions, but before
 # marking the new slot as active. To enable running this program, insert these
 # lines in your product's .mk file (without the # at the beginning):

 # AB_OTA_POSTINSTALL_CONFIG += \
 #   RUN_POSTINSTALL_system=true \
 #   POSTINSTALL_PATH_system=bin/postinst_example \
 #   FILESYSTEM_TYPE_system=ext4 \

 # This script receives no arguments. argv[0] will include the absolute path to
 # the script, including the directory where the new partition was mounted.
 #
 # The script will run from the "postinstall" SELinux domain, from the old system
 # environment (kernel, SELinux rules, etc). New rules and domains introduced by
 # the new system won't be available when this script runs, instead, all the
 # files in the mounted directory will have the attribute "postinstall_file". All
 # the files accessed from here would need to be allowed in the old system or
 # those accesses will fail. For example, the absolute path used in the first
 # line of this script (/system/bin/sh) is indeed the old system's sh binary. If
 # you use a compiled program, you might want to link it statically or use a
 # wrapper script to use the new ldso to run your program (see the
 # --generate-wrappers option in lddtree.py for an example).

 # We get called with two parameters: <target_slot> <status_fd>
 # * <target_slot> is the slot where the new system was just copied. This is
 #   normally either 0 or 1. You can get the target suffix running
 #   `bootctl get-suffix ${target_slot}`
 # * <status_fd> is a file descriptor number where this script can write to to
 #   report the progress of the process. See examples below.

 target_slot="$1"
 status_fd="$2"

 my_dir=$(dirname "$0")

 # We can notify the updater of the progress of our program by writing to the
 # status file descriptor "global_progress <frac>\n".
 print -u${status_fd} "global_progress 0"

 echo "The output of this program will show up in the logs." >&2

 # We are half way done, so we set 0.5.
 print -u${status_fd} "global_progress 0.5"

 echo "Note that this program runs from ${my_dir}"

 # Actually, we were done.
 print -u${status_fd} "global_progress 1.0"

 # If the exit code of this program is an error code (different from 0), the
 # update will fail and the new slot will not be marked as active.

 exit 0
	#!/system/bin/sh

	#
	# Copyright (C) 2015 The Android Open Source Project
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	#

	# This is an example post-install script. This script will be executed by the
	# update_engine right after finishing writing all the partitions, but before
	# marking the new slot as active. To enable running this program, insert these
	# lines in your product's .mk file (without the # at the beginning):

	# AB_OTA_POSTINSTALL_CONFIG += \
	# RUN_POSTINSTALL_system=true \
	# POSTINSTALL_PATH_system=bin/postinst_example \
	# FILESYSTEM_TYPE_system=ext4 \

	# This script receives no arguments. argv[0] will include the absolute path to
	# the script, including the directory where the new partition was mounted.
	#
	# The script will run from the "postinstall" SELinux domain, from the old system
	# environment (kernel, SELinux rules, etc). New rules and domains introduced by
	# the new system won't be available when this script runs, instead, all the
	# files in the mounted directory will have the attribute "postinstall_file". All
	# the files accessed from here would need to be allowed in the old system or
	# those accesses will fail. For example, the absolute path used in the first
	# line of this script (/system/bin/sh) is indeed the old system's sh binary. If
	# you use a compiled program, you might want to link it statically or use a
	# wrapper script to use the new ldso to run your program (see the
	# --generate-wrappers option in lddtree.py for an example).

	# We get called with two parameters: <target_slot> <status_fd>
	# * <target_slot> is the slot where the new system was just copied. This is
	# normally either 0 or 1. You can get the target suffix running
	# `bootctl get-suffix ${target_slot}`
	# * <status_fd> is a file descriptor number where this script can write to to
	# report the progress of the process. See examples below.

	target_slot="$1"
	status_fd="$2"

	my_dir=$(dirname "$0")

	# We can notify the updater of the progress of our program by writing to the
	# status file descriptor "global_progress <frac>\n".
	print -u${status_fd} "global_progress 0"

	echo "The output of this program will show up in the logs." >&2

	# We are half way done, so we set 0.5.
	print -u${status_fd} "global_progress 0.5"

	echo "Note that this program runs from ${my_dir}"

	# Actually, we were done.
	print -u${status_fd} "global_progress 1.0"

	# If the exit code of this program is an error code (different from 0), the
	# update will fail and the new slot will not be marked as active.

	exit 0