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supervisor(3erl) Erlang Module Definition supervisor(3erl)

NAME

supervisor - Generic Supervisor Behaviour

DESCRIPTION

A behaviour module for implementing a supervisor, a process which supervises other processes called child processes. A child process can either be another supervisor or a worker process. Worker processes are normally implemented using one of the gen_event, gen_fsm, or gen_server behaviours. A supervisor implemented using this module will have a standard set of interface functions and include functionality for tracing and error reporting. Supervisors are used to build an hierarchical process structure called a supervision tree, a nice way to structure a fault tolerant application. Refer to OTP Design Principles for more information.
A supervisor assumes the definition of which child processes to supervise to be located in a callback module exporting a pre-defined set of functions.
Unless otherwise stated, all functions in this module will fail if the specified supervisor does not exist or if bad arguments are given.

SUPERVISION PRINCIPLES

The supervisor is responsible for starting, stopping and monitoring its child processes. The basic idea of a supervisor is that it should keep its child processes alive by restarting them when necessary.
The children of a supervisor is defined as a list of child specifications. When the supervisor is started, the child processes are started in order from left to right according to this list. When the supervisor terminates, it first terminates its child processes in reversed start order, from right to left.
A supervisor can have one of the following restart strategies:
*
one_for_one - if one child process terminates and should be restarted, only that child process is affected.
*
one_for_all - if one child process terminates and should be restarted, all other child processes are terminated and then all child processes are restarted.
*
rest_for_one - if one child process terminates and should be restarted, the 'rest' of the child processes -- i.e. the child processes after the terminated child process in the start order -- are terminated. Then the terminated child process and all child processes after it are restarted.
*
simple_one_for_one - a simplified one_for_one supervisor, where all child processes are dynamically added instances of the same process type, i.e. running the same code.
The functions delete_child/2 and restart_child/2 are invalid for simple_one_for_one supervisors and will return {error,simple_one_for_one} if the specified supervisor uses this restart strategy.
The function terminate_child/2 can be used for children under simple_one_for_one supervisors by giving the child's pid() as the second argument. If instead the child specification identifier is used, terminate_child/2 will return {error,simple_one_for_one}.
Because a simple_one_for_one supervisor could have many children, it shuts them all down at same time. So, order in which they are stopped is not defined. For the same reason, it could have an overhead with regards to the Shutdown strategy.
To prevent a supervisor from getting into an infinite loop of child process terminations and restarts, a maximum restart frequency is defined using two integer values MaxR and MaxT. If more than MaxR restarts occur within MaxT seconds, the supervisor terminates all child processes and then itself.
This is the type definition of a child specification: 

child_spec() = {Id,StartFunc,Restart,Shutdown,Type,Modules}
 Id = term()
 StartFunc = {M,F,A}
  M = F = atom()
  A = [term()]
 Restart = permanent | transient | temporary
 Shutdown = brutal_kill | int()>0 | infinity
 Type = worker | supervisor
 Modules = [Module] | dynamic
  Module = atom()
*
Id is a name that is used to identify the child specification internally by the supervisor.
*
StartFunc defines the function call used to start the child process. It should be a module-function-arguments tuple {M,F,A} used as apply(M,F,A).
The start function must create and link to the child process, and should return {ok,Child} or {ok,Child,Info} where Child is the pid of the child process and Info an arbitrary term which is ignored by the supervisor.
The start function can also return ignore if the child process for some reason cannot be started, in which case the child specification will be kept by the supervisor (unless it is a temporary child) but the non-existing child process will be ignored.
If something goes wrong, the function may also return an error tuple {error,Error}.
Note that the start_link functions of the different behaviour modules fulfill the above requirements.
*
Restart defines when a terminated child process should be restarted. A permanent child process should always be restarted, a temporary child process should never be restarted (even when the supervisor's restart strategy is rest_for_one or one_for_all and a sibling's death causes the temporary process to be terminated) and a transient child process should be restarted only if it terminates abnormally, i.e. with another exit reason than normal, shutdown or {shutdown,Term}.
*
Shutdown defines how a child process should be terminated. brutal_kill means the child process will be unconditionally terminated using exit(Child,kill). An integer timeout value means that the supervisor will tell the child process to terminate by calling exit(Child,shutdown) and then wait for an exit signal with reason shutdown back from the child process. If no exit signal is received within the specified number of milliseconds, the child process is unconditionally terminated using exit(Child,kill).
If the child process is another supervisor, Shutdown should be set to infinity to give the subtree ample time to shutdown. It is also allowed to set it to infinity, if the child process is a worker.
Warning:
Be careful by setting the Shutdown strategy to infinity when the child process is a worker. Because, in this situation, the termination of the supervision tree depends on the child process, it must be implemented in a safe way and its cleanup procedure must always return.
Note that all child processes implemented using the standard OTP behavior modules automatically adhere to the shutdown protocol.
*
Type specifies if the child process is a supervisor or a worker.
*
Modules is used by the release handler during code replacement to determine which processes are using a certain module. As a rule of thumb Modules should be a list with one element [Module], where Module is the callback module, if the child process is a supervisor, gen_server or gen_fsm. If the child process is an event manager (gen_event) with a dynamic set of callback modules, Modules should be dynamic. See OTP Design Principles for more information about release handling.
*
Internally, the supervisor also keeps track of the pid Child of the child process, or undefined if no pid exists.

DATA TYPES


child() = undefined | pid()

 



child_id() = term()

 
Not a pid().

child_spec() = 

 

    {Id ::  child_id(),

 

     StartFunc ::  mfargs(),

 

     Restart ::  restart(),

 

     Shutdown ::  shutdown(),

 

     Type ::  worker(),

 

     Modules ::  modules()}

 



mfargs() = 

 

    {M :: module(), F :: atom(), A :: [term()] | undefined}

 
A (the argument list) has the value undefined if Restart is temporary.

modules() = [module()] | dynamic

 



restart() = permanent | transient | temporary

 



shutdown() = brutal_kill | timeout()

 



strategy() = one_for_all

 

           | one_for_one

 

           | rest_for_one

 

           | simple_one_for_one

 



sup_ref() = (Name :: atom())

 

          | {Name :: atom(), Node :: node()}

 

          | {global, Name :: atom()}

 

          | {via, Module :: module(), Name :: any()}

 

          | pid()

 



worker() = worker | supervisor

 

EXPORTS


start_link(Module, Args) -> startlink_ret()

 
 

start_link(SupName, Module, Args) -> startlink_ret()

 
 
Types:
SupName = sup_name()
 
Module = module()
 
Args = term()
 
startlink_ret() = {ok, pid()}

 

                | ignore

 

                | {error,  startlink_err()}
 
startlink_err() = {already_started, pid()}

 

                | {shutdown, term()}

 

                | term()
 
sup_name() = {local, Name :: atom()}

 

           | {global, Name :: atom()}

 

           | {via, Module :: module(), Name :: any()}
 
Creates a supervisor process as part of a supervision tree. The function will, among other things, ensure that the supervisor is linked to the calling process (its supervisor).
The created supervisor process calls Module:init/1 to find out about restart strategy, maximum restart frequency and child processes. To ensure a synchronized start-up procedure, start_link/2,3 does not return until Module:init/1 has returned and all child processes have been started.
If SupName={local,Name} the supervisor is registered locally as Name using register/2. If SupName={global,Name} the supervisor is registered globally as Name using global:register_name/2. If SupName={via,Module,Name} the supervisor is registered as Name using the registry represented by Module. The Module callback should export the functions register_name/2, unregister_name/1 and send/2, which should behave like the corresponding functions in global. Thus, {via,global,Name} is a valid reference.
If no name is provided, the supervisor is not registered.
Module is the name of the callback module.
Args is an arbitrary term which is passed as the argument to Module:init/1.
If the supervisor and its child processes are successfully created (i.e. if all child process start functions return {ok,Child}, {ok,Child,Info}, or ignore) the function returns {ok,Pid}, where Pid is the pid of the supervisor. If there already exists a process with the specified SupName the function returns {error,{already_started,Pid}}, where Pid is the pid of that process.
If Module:init/1 returns ignore, this function returns ignore as well and the supervisor terminates with reason normal. If Module:init/1 fails or returns an incorrect value, this function returns {error,Term} where Term is a term with information about the error, and the supervisor terminates with reason Term.
If any child process start function fails or returns an error tuple or an erroneous value, the supervisor will first terminate all already started child processes with reason shutdown and then terminate itself and return {error, {shutdown, Reason}}.

start_child(SupRef, ChildSpec) -> startchild_ret()

 
 
Types:
SupRef = sup_ref()
 
ChildSpec = child_spec() | (List :: [term()])
 
child_spec() = 

 

    {Id ::  child_id(),

 

     StartFunc ::  mfargs(),

 

     Restart ::  restart(),

 

     Shutdown ::  shutdown(),

 

     Type ::  worker(),

 

     Modules ::  modules()}
 
startchild_ret() = {ok, Child :: child()}

 

                 | {ok, Child ::  child(), Info :: term()}

 

                 | {error,  startchild_err()}
 
startchild_err() = already_present

 

                 | {already_started, Child ::  child()}

 

                 | term()
 
Dynamically adds a child specification to the supervisor SupRef which starts the corresponding child process.
SupRef can be:
*
the pid,
*
Name, if the supervisor is locally registered,
*
{Name,Node}, if the supervisor is locally registered at another node, or
*
{global,Name}, if the supervisor is globally registered.
*
{via,Module,Name}, if the supervisor is registered through an alternative process registry.
ChildSpec should be a valid child specification (unless the supervisor is a simple_one_for_one supervisor, see below). The child process will be started by using the start function as defined in the child specification.
If the case of a simple_one_for_one supervisor, the child specification defined in Module:init/1 will be used and ChildSpec should instead be an arbitrary list of terms List. The child process will then be started by appending List to the existing start function arguments, i.e. by calling apply(M, F, A++List) where {M,F,A} is the start function defined in the child specification.
If there already exists a child specification with the specified Id, ChildSpec is discarded and the function returns {error,already_present} or {error,{already_started,Child}}, depending on if the corresponding child process is running or not.
If the child process start function returns {ok,Child} or {ok,Child,Info}, the child specification and pid is added to the supervisor and the function returns the same value.
If the child process start function returns ignore, the child specification is added to the supervisor, the pid is set to undefined and the function returns {ok,undefined}.
If the child process start function returns an error tuple or an erroneous value, or if it fails, the child specification is discarded and the function returns {error,Error} where Error is a term containing information about the error and child specification.

terminate_child(SupRef, Id) -> Result

 
 
Types:
SupRef = sup_ref()
 
Id = pid() | child_id()
 
Result = ok | {error, Error}
 
Error = not_found | simple_one_for_one
 
Tells the supervisor SupRef to terminate the given child.
If the supervisor is not simple_one_for_one, Id must be the child specification identifier. The process, if there is one, is terminated and, unless it is a temporary child, the child specification is kept by the supervisor. The child process may later be restarted by the supervisor. The child process can also be restarted explicitly by calling restart_child/2. Use delete_child/2 to remove the child specification.
If the child is temporary, the child specification is deleted as soon as the process terminates. This means that delete_child/2 has no meaning and restart_child/2 can not be used for these children.
If the supervisor is simple_one_for_one, Id must be the child process' pid(). If the specified process is alive, but is not a child of the given supervisor, the function will return {error,not_found}. If the child specification identifier is given instead instead of a pid(), the function will return {error,simple_one_for_one}.
If successful, the function returns ok. If there is no child specification with the specified Id, the function returns {error,not_found}.
See start_child/2 for a description of SupRef.

delete_child(SupRef, Id) -> Result

 
 
Types:
SupRef = sup_ref()
 
Id = child_id()
 
Result = ok | {error, Error}
 
Error = running | restarting | not_found | simple_one_for_one
 
Tells the supervisor SupRef to delete the child specification identified by Id. The corresponding child process must not be running, use terminate_child/2 to terminate it.
See start_child/2 for a description of SupRef.
If successful, the function returns ok. If the child specification identified by Id exists but the corresponding child process is running or about to be restarted, the function returns {error,running} or {error,restarting} respectively. If the child specification identified by Id does not exist, the function returns {error,not_found}.

restart_child(SupRef, Id) -> Result

 
 
Types:
SupRef = sup_ref()
 
Id = child_id()
 
Result = {ok, Child :: child()}
 

| {ok, Child :: child(), Info :: term()}
 

| {error, Error}
 
Error = running
 

| restarting
 

| not_found
 

| simple_one_for_one
 

| term()
 
Tells the supervisor SupRef to restart a child process corresponding to the child specification identified by Id. The child specification must exist and the corresponding child process must not be running.
Note that for temporary children, the child specification is automatically deleted when the child terminates, and thus it is not possible to restart such children.
See start_child/2 for a description of SupRef.
If the child specification identified by Id does not exist, the function returns {error,not_found}. If the child specification exists but the corresponding process is already running, the function returns {error,running}.
If the child process start function returns {ok,Child} or {ok,Child,Info}, the pid is added to the supervisor and the function returns the same value.
If the child process start function returns ignore, the pid remains set to undefined and the function returns {ok,undefined}.
If the child process start function returns an error tuple or an erroneous value, or if it fails, the function returns {error,Error} where Error is a term containing information about the error.

which_children(SupRef) -> [{Id, Child, Type, Modules}]

 
 
Types:
SupRef = sup_ref()
 
Id = child_id() | undefined
 
Child = child() | restarting
 
Type = worker()
 
Modules = modules()
 
Returns a newly created list with information about all child specifications and child processes belonging to the supervisor SupRef.
Note that calling this function when supervising a large number of children under low memory conditions can cause an out of memory exception.
See start_child/2 for a description of SupRef.
The information given for each child specification/process is:
*
Id - as defined in the child specification or undefined in the case of a simple_one_for_one supervisor.
*
Child - the pid of the corresponding child process, the atom restarting if the process is about to be restarted or undefined if there is no such process.
*
Type - as defined in the child specification.
*
Modules - as defined in the child specification.

count_children(SupRef) -> PropListOfCounts

 
 
Types:
SupRef = sup_ref()
 
PropListOfCounts = [Count]
 
Count = {specs, ChildSpecCount :: integer() >= 0}
 

| {active, ActiveProcessCount :: integer() >= 0}
 

| {supervisors,
 

ChildSupervisorCount :: integer() >= 0}
 

| {workers, ChildWorkerCount :: integer() >= 0}
 
Returns a property list (see proplists) containing the counts for each of the following elements of the supervisor's child specifications and managed processes:
*
specs - the total count of children, dead or alive.
*
active - the count of all actively running child processes managed by this supervisor.
*
supervisors - the count of all children marked as child_type = supervisor in the spec list, whether or not the child process is still alive.
*
workers - the count of all children marked as child_type = worker in the spec list, whether or not the child process is still alive.

check_childspecs(ChildSpecs) -> Result

 
 
Types:
ChildSpecs = [child_spec()]
 
Result = ok | {error, Error :: term()}
 
This function takes a list of child specification as argument and returns ok if all of them are syntactically correct, or {error,Error} otherwise.

CALLBACK FUNCTIONS

The following functions should be exported from a supervisor callback module.

EXPORTS

Module:init(Args) -> Result
 
Types:
Args = term()
 
Result = {ok,{{RestartStrategy,MaxR,MaxT},[ChildSpec]}} | ignore
 

RestartStrategy = strategy()
 

MaxR = integer()>=0
 

MaxT = integer()>0
 

ChildSpec = child_spec()
 
Whenever a supervisor is started using supervisor:start_link/2,3, this function is called by the new process to find out about restart strategy, maximum restart frequency and child specifications.
Args is the Args argument provided to the start function.
RestartStrategy is the restart strategy and MaxR and MaxT defines the maximum restart frequency of the supervisor. [ChildSpec] is a list of valid child specifications defining which child processes the supervisor should start and monitor. See the discussion about Supervision Principles above.
Note that when the restart strategy is simple_one_for_one, the list of child specifications must be a list with one child specification only. (The Id is ignored). No child process is then started during the initialization phase, but all children are assumed to be started dynamically using supervisor:start_child/2.
The function may also return ignore.

SEE ALSO

gen_event(3erl), gen_fsm(3erl), gen_server(3erl), sys(3erl)
stdlib 2.2 Ericsson AB