init/readme.txt - platform/system/core - Gitiles


 Android Init Language
 ---------------------

 The Android Init Language consists of four broad classes of statements,
 which are Actions, Commands, Services, and Options.

 All of these are line-oriented, consisting of tokens separated by
 whitespace.  The c-style backslash escapes may be used to insert
 whitespace into a token.  Double quotes may also be used to prevent
 whitespace from breaking text into multiple tokens.  The backslash,
 when it is the last character on a line, may be used for line-folding.

 Lines which start with a # (leading whitespace allowed) are comments.

 Actions and Services implicitly declare a new section.  All commands
 or options belong to the section most recently declared.  Commands
 or options before the first section are ignored.

 Actions and Services have unique names.  If a second Action or Service
 is declared with the same name as an existing one, it is ignored as
 an error.  (??? should we override instead)


 Actions
 -------
 Actions are named sequences of commands.  Actions have a trigger which
 is used to determine when the action should occur.  When an event
 occurs which matches an action's trigger, that action is added to
 the tail of a to-be-executed queue (unless it is already on the
 queue).

 Each action in the queue is dequeued in sequence and each command in
 that action is executed in sequence.  Init handles other activities
 (device creation/destruction, property setting, process restarting)
 "between" the execution of the commands in activities.

 Actions take the form of:

 on <trigger>
    <command>
    <command>
    <command>


 Services
 --------
 Services are programs which init launches and (optionally) restarts
 when they exit.  Services take the form of:

 service <name> <pathname> [ <argument> ]*
    <option>
    <option>
    ...


 Options
 -------
 Options are modifiers to services.  They affect how and when init
 runs the service.

 critical
    This is a device-critical service. If it exits more than four times in
    four minutes, the device will reboot into recovery mode.

 disabled
    This service will not automatically start with its class.
    It must be explicitly started by name.

 setenv <name> <value>
    Set the environment variable <name> to <value> in the launched process.

 socket <name> <type> <perm> [ <user> [ <group> [ <seclabel> ] ] ]
    Create a unix domain socket named /dev/socket/<name> and pass
    its fd to the launched process.  <type> must be "dgram", "stream" or "seqpacket".
    User and group default to 0.
    'seclabel' is the SELinux security context for the socket.
    It defaults to the service security context, as specified by seclabel or
    computed based on the service executable file security context.

 user <username>
    Change to username before exec'ing this service.
    Currently defaults to root.  (??? probably should default to nobody)
    Currently, if your process requires linux capabilities then you cannot use
    this command. You must instead request the capabilities in-process while
    still root, and then drop to your desired uid.

 group <groupname> [ <groupname> ]*
    Change to groupname before exec'ing this service.  Additional
    groupnames beyond the (required) first one are used to set the
    supplemental groups of the process (via setgroups()).
    Currently defaults to root.  (??? probably should default to nobody)

 seclabel <seclabel>
   Change to 'seclabel' before exec'ing this service.
   Primarily for use by services run from the rootfs, e.g. ueventd, adbd.
   Services on the system partition can instead use policy-defined transitions
   based on their file security context.
   If not specified and no transition is defined in policy, defaults to the init context.

 oneshot
    Do not restart the service when it exits.

 class <name>
    Specify a class name for the service.  All services in a
    named class may be started or stopped together.  A service
    is in the class "default" if one is not specified via the
    class option.

 onrestart
     Execute a Command (see below) when service restarts.


 Triggers
 --------
    Triggers are strings which can be used to match certain kinds
    of events and used to cause an action to occur.

 boot
    This is the first trigger that will occur when init starts
    (after /init.conf is loaded)

 <name>=<value>
    Triggers of this form occur when the property <name> is set
    to the specific value <value>.

    One can also test multiple properties to execute a group
    of commands. For example:

    on property:test.a=1 && property:test.b=1
        setprop test.c 1

    The above stub sets test.c to 1 only when
    both test.a=1 and test.b=1


 Commands
 --------

 exec [ <seclabel> [ <user> [ <group> ]* ] ] -- <command> [ <argument> ]*
    Fork and execute command with the given arguments. The command starts
    after "--" so that an optional security context, user, and supplementary
    groups can be provided. No other commands will be run until this one
    finishes.

 execonce <path> [ <argument> ]*
    Fork and execute a program (<path>).  This will block until
    the program completes execution.  This command can be run at most
    once during init's lifetime. Subsequent invocations are ignored.
    It is best to avoid execonce as unlike the builtin commands, it runs
    the risk of getting init "stuck".

 export <name> <value>
    Set the environment variable <name> equal to <value> in the
    global environment (which will be inherited by all processes
    started after this command is executed)

 ifup <interface>
    Bring the network interface <interface> online.

 import <filename>
    Parse an init config file, extending the current configuration.

 hostname <name>
    Set the host name.

 chmod <octal-mode> <path>
    Change file access permissions.

 chown <owner> <group> <path>
    Change file owner and group.

 chroot <directory>
   Change process root directory.

 class_start <serviceclass>
    Start all services of the specified class if they are
    not already running.

 class_stop <serviceclass>
    Stop all services of the specified class if they are
    currently running.

 domainname <name>
    Set the domain name.

 enable <servicename>
    Turns a disabled service into an enabled one as if the service did not
    specify disabled.
    If the service is supposed to be running, it will be started now.
    Typically used when the bootloader sets a variable that indicates a specific
    service should be started when needed. E.g.
      on property:ro.boot.myfancyhardware=1
         enable my_fancy_service_for_my_fancy_hardware

 insmod <path>
    Install the module at <path>

 loglevel <level>
    Sets the kernel log level to level. Properties are expanded within <level>.

 mkdir <path> [mode] [owner] [group]
    Create a directory at <path>, optionally with the given mode, owner, and
    group. If not provided, the directory is created with permissions 755 and
    owned by the root user and root group. If provided, the mode, owner and group
    will be updated if the directory exists already.

 mount <type> <device> <dir> [ <flag> ]* [<options>]
    Attempt to mount the named device at the directory <dir>
    <device> may be of the form mtd@name to specify a mtd block
    device by name.
    <flag>s include "ro", "rw", "remount", "noatime", ...
    <options> include "barrier=1", "noauto_da_alloc", "discard", ... as
    a comma separated string, eg: barrier=1,noauto_da_alloc

 restorecon <path> [ <path> ]*
    Restore the file named by <path> to the security context specified
    in the file_contexts configuration.
    Not required for directories created by the init.rc as these are
    automatically labeled correctly by init.

 restorecon_recursive <path> [ <path> ]*
    Recursively restore the directory tree named by <path> to the
    security contexts specified in the file_contexts configuration.

 setcon <seclabel>
    Set the current process security context to the specified string.
    This is typically only used from early-init to set the init context
    before any other process is started.

 setprop <name> <value>
    Set system property <name> to <value>. Properties are expanded
    within <value>.

 setrlimit <resource> <cur> <max>
    Set the rlimit for a resource.

 start <service>
    Start a service running if it is not already running.

 stop <service>
    Stop a service from running if it is currently running.

 symlink <target> <path>
    Create a symbolic link at <path> with the value <target>

 sysclktz <mins_west_of_gmt>
    Set the system clock base (0 if system clock ticks in GMT)

 trigger <event>
    Trigger an event.  Used to queue an action from another
    action.

 wait <path> [ <timeout> ]
   Poll for the existence of the given file and return when found,
   or the timeout has been reached. If timeout is not specified it
   currently defaults to five seconds.

 write <path> <content>
    Open the file at <path> and write a string to it with write(2).
    If the file does not exist, it will be created. If it does exist,
    it will be truncated. Properties are expanded within <content>.


 Properties
 ----------
 Init updates some system properties to provide some insight into
 what it's doing:

 init.action
    Equal to the name of the action currently being executed or "" if none

 init.command
    Equal to the command being executed or "" if none.

 init.svc.<name>
    State of a named service ("stopped", "running", "restarting")


 Bootcharting
 ------------

 This version of init contains code to perform "bootcharting": generating log
 files that can be later processed by the tools provided by www.bootchart.org.

 On the emulator, use the new -bootchart <timeout> option to boot with
 bootcharting activated for <timeout> seconds.

 On a device, create /data/bootchart/start with a command like the following:

   adb shell 'echo $TIMEOUT > /data/bootchart/start'

 Where the value of $TIMEOUT corresponds to the desired bootcharted period in
 seconds. Bootcharting will stop after that many seconds have elapsed.
 You can also stop the bootcharting at any moment by doing the following:

   adb shell 'echo 1 > /data/bootchart/stop'

 Note that /data/bootchart/stop is deleted automatically by init at the end of
 the bootcharting. This is not the case with /data/bootchart/start, so don't
 forget to delete it when you're done collecting data.

 The log files are written to /data/bootchart/. A script is provided to
 retrieve them and create a bootchart.tgz file that can be used with the
 bootchart command-line utility:

   sudo apt-get install pybootchartgui
   ANDROID_SERIAL=<device serial number>
   $ANDROID_BUILD_TOP/system/core/init/grab-bootchart.sh


 Debugging init
 --------------
 By default, programs executed by init will drop stdout and stderr into
 /dev/null. To help with debugging, you can execute your program via the
 Android program logwrapper. This will redirect stdout/stderr into the
 Android logging system (accessed via logcat).

 For example
 service akmd /system/bin/logwrapper /sbin/akmd

 For quicker turnaround when working on init itself, use:

   mm -j
   m ramdisk-nodeps
   m bootimage-nodeps
   adb reboot bootloader
   fastboot boot $ANDROID_PRODUCT_OUT/boot.img

 Alternatively, use the emulator:

   emulator -partition-size 1024 -verbose -show-kernel -no-window

 You might want to call klog_set_level(6) after the klog_init() call
 so you see the kernel logging in dmesg (or the emulator output).

	Android Init Language
	---------------------

	The Android Init Language consists of four broad classes of statements,
	which are Actions, Commands, Services, and Options.

	All of these are line-oriented, consisting of tokens separated by
	whitespace. The c-style backslash escapes may be used to insert
	whitespace into a token. Double quotes may also be used to prevent
	whitespace from breaking text into multiple tokens. The backslash,
	when it is the last character on a line, may be used for line-folding.

	Lines which start with a # (leading whitespace allowed) are comments.

	Actions and Services implicitly declare a new section. All commands
	or options belong to the section most recently declared. Commands
	or options before the first section are ignored.

	Actions and Services have unique names. If a second Action or Service
	is declared with the same name as an existing one, it is ignored as
	an error. (??? should we override instead)


	Actions
	-------
	Actions are named sequences of commands. Actions have a trigger which
	is used to determine when the action should occur. When an event
	occurs which matches an action's trigger, that action is added to
	the tail of a to-be-executed queue (unless it is already on the
	queue).

	Each action in the queue is dequeued in sequence and each command in
	that action is executed in sequence. Init handles other activities
	(device creation/destruction, property setting, process restarting)
	"between" the execution of the commands in activities.

	Actions take the form of:

	on <trigger>
	<command>
	<command>
	<command>


	Services
	--------
	Services are programs which init launches and (optionally) restarts
	when they exit. Services take the form of:

	service <name> <pathname> [ <argument> ]*
	<option>
	<option>
	...


	Options
	-------
	Options are modifiers to services. They affect how and when init
	runs the service.

	critical
	This is a device-critical service. If it exits more than four times in
	four minutes, the device will reboot into recovery mode.

	disabled
	This service will not automatically start with its class.
	It must be explicitly started by name.

	setenv <name> <value>
	Set the environment variable <name> to <value> in the launched process.

	socket <name> <type> <perm> [ <user> [ <group> [ <seclabel> ] ] ]
	Create a unix domain socket named /dev/socket/<name> and pass
	its fd to the launched process. <type> must be "dgram", "stream" or "seqpacket".
	User and group default to 0.
	'seclabel' is the SELinux security context for the socket.
	It defaults to the service security context, as specified by seclabel or
	computed based on the service executable file security context.

	user <username>
	Change to username before exec'ing this service.
	Currently defaults to root. (??? probably should default to nobody)
	Currently, if your process requires linux capabilities then you cannot use
	this command. You must instead request the capabilities in-process while
	still root, and then drop to your desired uid.

	group <groupname> [ <groupname> ]*
	Change to groupname before exec'ing this service. Additional
	groupnames beyond the (required) first one are used to set the
	supplemental groups of the process (via setgroups()).
	Currently defaults to root. (??? probably should default to nobody)

	seclabel <seclabel>
	Change to 'seclabel' before exec'ing this service.
	Primarily for use by services run from the rootfs, e.g. ueventd, adbd.
	Services on the system partition can instead use policy-defined transitions
	based on their file security context.
	If not specified and no transition is defined in policy, defaults to the init context.

	oneshot
	Do not restart the service when it exits.

	class <name>
	Specify a class name for the service. All services in a
	named class may be started or stopped together. A service
	is in the class "default" if one is not specified via the
	class option.

	onrestart
	Execute a Command (see below) when service restarts.


	Triggers
	--------
	Triggers are strings which can be used to match certain kinds
	of events and used to cause an action to occur.

	boot
	This is the first trigger that will occur when init starts
	(after /init.conf is loaded)

	<name>=<value>
	Triggers of this form occur when the property <name> is set
	to the specific value <value>.

	One can also test multiple properties to execute a group
	of commands. For example:

	on property:test.a=1 && property:test.b=1
	setprop test.c 1

	The above stub sets test.c to 1 only when
	both test.a=1 and test.b=1


	Commands
	--------

	exec [ <seclabel> [ <user> [ <group> ]* ] ] -- <command> [ <argument> ]*
	Fork and execute command with the given arguments. The command starts
	after "--" so that an optional security context, user, and supplementary
	groups can be provided. No other commands will be run until this one
	finishes.

	execonce <path> [ <argument> ]*
	Fork and execute a program (<path>). This will block until
	the program completes execution. This command can be run at most
	once during init's lifetime. Subsequent invocations are ignored.
	It is best to avoid execonce as unlike the builtin commands, it runs
	the risk of getting init "stuck".

	export <name> <value>
	Set the environment variable <name> equal to <value> in the
	global environment (which will be inherited by all processes
	started after this command is executed)

	ifup <interface>
	Bring the network interface <interface> online.

	import <filename>
	Parse an init config file, extending the current configuration.

	hostname <name>
	Set the host name.

	chmod <octal-mode> <path>
	Change file access permissions.

	chown <owner> <group> <path>
	Change file owner and group.

	chroot <directory>
	Change process root directory.

	class_start <serviceclass>
	Start all services of the specified class if they are
	not already running.

	class_stop <serviceclass>
	Stop all services of the specified class if they are
	currently running.

	domainname <name>
	Set the domain name.

	enable <servicename>
	Turns a disabled service into an enabled one as if the service did not
	specify disabled.
	If the service is supposed to be running, it will be started now.
	Typically used when the bootloader sets a variable that indicates a specific
	service should be started when needed. E.g.
	on property:ro.boot.myfancyhardware=1
	enable my_fancy_service_for_my_fancy_hardware

	insmod <path>
	Install the module at <path>

	loglevel <level>
	Sets the kernel log level to level. Properties are expanded within <level>.

	mkdir <path> [mode] [owner] [group]
	Create a directory at <path>, optionally with the given mode, owner, and
	group. If not provided, the directory is created with permissions 755 and
	owned by the root user and root group. If provided, the mode, owner and group
	will be updated if the directory exists already.

	mount <type> <device> <dir> [ <flag> ]* [<options>]
	Attempt to mount the named device at the directory <dir>
	<device> may be of the form mtd@name to specify a mtd block
	device by name.
	<flag>s include "ro", "rw", "remount", "noatime", ...
	<options> include "barrier=1", "noauto_da_alloc", "discard", ... as
	a comma separated string, eg: barrier=1,noauto_da_alloc

	restorecon <path> [ <path> ]*
	Restore the file named by <path> to the security context specified
	in the file_contexts configuration.
	Not required for directories created by the init.rc as these are
	automatically labeled correctly by init.

	restorecon_recursive <path> [ <path> ]*
	Recursively restore the directory tree named by <path> to the
	security contexts specified in the file_contexts configuration.

	setcon <seclabel>
	Set the current process security context to the specified string.
	This is typically only used from early-init to set the init context
	before any other process is started.

	setprop <name> <value>
	Set system property <name> to <value>. Properties are expanded
	within <value>.

	setrlimit <resource> <cur> <max>
	Set the rlimit for a resource.

	start <service>
	Start a service running if it is not already running.

	stop <service>
	Stop a service from running if it is currently running.

	symlink <target> <path>
	Create a symbolic link at <path> with the value <target>

	sysclktz <mins_west_of_gmt>
	Set the system clock base (0 if system clock ticks in GMT)

	trigger <event>
	Trigger an event. Used to queue an action from another
	action.

	wait <path> [ <timeout> ]
	Poll for the existence of the given file and return when found,
	or the timeout has been reached. If timeout is not specified it
	currently defaults to five seconds.

	write <path> <content>
	Open the file at <path> and write a string to it with write(2).
	If the file does not exist, it will be created. If it does exist,
	it will be truncated. Properties are expanded within <content>.


	Properties
	----------
	Init updates some system properties to provide some insight into
	what it's doing:

	init.action
	Equal to the name of the action currently being executed or "" if none

	init.command
	Equal to the command being executed or "" if none.

	init.svc.<name>
	State of a named service ("stopped", "running", "restarting")


	Bootcharting
	------------

	This version of init contains code to perform "bootcharting": generating log
	files that can be later processed by the tools provided by www.bootchart.org.

	On the emulator, use the new -bootchart <timeout> option to boot with
	bootcharting activated for <timeout> seconds.

	On a device, create /data/bootchart/start with a command like the following:

	adb shell 'echo $TIMEOUT > /data/bootchart/start'

	Where the value of $TIMEOUT corresponds to the desired bootcharted period in
	seconds. Bootcharting will stop after that many seconds have elapsed.
	You can also stop the bootcharting at any moment by doing the following:

	adb shell 'echo 1 > /data/bootchart/stop'

	Note that /data/bootchart/stop is deleted automatically by init at the end of
	the bootcharting. This is not the case with /data/bootchart/start, so don't
	forget to delete it when you're done collecting data.

	The log files are written to /data/bootchart/. A script is provided to
	retrieve them and create a bootchart.tgz file that can be used with the
	bootchart command-line utility:

	sudo apt-get install pybootchartgui
	ANDROID_SERIAL=<device serial number>
	$ANDROID_BUILD_TOP/system/core/init/grab-bootchart.sh


	Debugging init
	--------------
	By default, programs executed by init will drop stdout and stderr into
	/dev/null. To help with debugging, you can execute your program via the
	Android program logwrapper. This will redirect stdout/stderr into the
	Android logging system (accessed via logcat).

	For example
	service akmd /system/bin/logwrapper /sbin/akmd

	For quicker turnaround when working on init itself, use:

	mm -j
	m ramdisk-nodeps
	m bootimage-nodeps
	adb reboot bootloader
	fastboot boot $ANDROID_PRODUCT_OUT/boot.img

	Alternatively, use the emulator:

	emulator -partition-size 1024 -verbose -show-kernel -no-window

	You might want to call klog_set_level(6) after the klog_init() call
	so you see the kernel logging in dmesg (or the emulator output).