sys

A functional interface to system messages.

This module contains functions for sending system messages used by programs, and messages used for debugging purposes.

Functions used for implementation of processes are also expected to understand system messages, such as debug messages and code change. These functions must be used to implement the use of system messages for a process; either directly, or through standard behaviors, such as gen_server.

The default time-out is 5000 ms, unless otherwise specified. timeout defines the time to wait for the process to respond to a request. If the process does not respond, the function evaluates exit({timeout, {M, F, A}}).

The functions make references to a debug structure. The debug structure is a list of dbg_opt(), which is an internal data type used by function handle_system_msg/6. No debugging is performed if it is an empty list.

System Messages

Processes that are not implemented as one of the standard behaviors must still understand system messages. The following three messages must be understood:

Plain system messages. These are received as {system, From, Msg}. The content and meaning of this message are not interpreted by the receiving process module. When a system message is received, function handle_system_msg/6 is called to handle the request.

Shutdown messages. If the process traps exits, it must be able to handle a shutdown request from its parent, the supervisor. The message {'EXIT', Parent, Reason} from the parent is an order to terminate. The process must terminate when this message is received, normally with the same Reason as Parent.

If the modules used to implement the process change dynamically during runtime, the process must understand one more message. An example is the gen_event processes. The message is {get_modules, From}. The reply to this message is From ! {modules, Modules}, where Modules is a list of the currently active modules in the process.

This message is used by the release handler to find which processes that execute a certain module. The process can later be suspended and ordered to perform a code change for one of its modules.

System Events

When debugging a process with the functions of this module, the process generates system_events, which are then treated in the debug function. For example, trace formats the system events to the terminal.

Three predefined system events are used when a process receives or sends a message. The process can also define its own system events. It is always up to the process itself to format these events.

Types


name() = pid() | atom() | {global, atom()}

system_event() =
            {in, Msg :: term()} |
            {in, Msg :: term(), From :: term()} |
            {out, Msg :: term(), To :: term()} |
            term()

dbg_opt()

See the introduction of this manual page.

dbg_fun() =
            fun((FuncState :: term(),
                 Event :: system_event(),
                 ProcState :: term()) ->
                    done | (NewFuncState :: term()))

format_fun() =
            fun((Device :: io:device() | file:io_device(),
                 Event :: system_event(),
                 Extra :: term()) ->
                    any())

Functions


change_code(Name, Module, OldVsn, Extra) -> ok | {error, Reason}

  • Name = name()
  • Module = module()
  • OldVsn = undefined | term()
  • Extra = Reason = term()

change_code(Name, Module, OldVsn, Extra, Timeout) ->
               ok | {error, Reason}

  • Name = name()
  • Module = module()
  • OldVsn = undefined | term()
  • Extra = term()
  • Timeout = timeout()
  • Reason = term()

Tells the process to change code. The process must be suspended to handle this message. Argument Extra is reserved for each process to use as its own. Function Module:system_code_change/4 is called. OldVsn is the old version of the Module.

get_state(Name) -> State

get_state(Name, Timeout) -> State

  • Name = name()
  • Timeout = timeout()
  • State = term()

Gets the state of the process.

Note!

These functions are intended only to help with debugging. They are provided for convenience, allowing developers to avoid having to create their own state extraction functions and also avoid having to interactively extract the state from the return values of get_status/1 or get_status/2 while debugging.

The value of State varies for different types of processes, as follows:

For a gen_server process, the returned State is the state of the callback module.

For a gen_fsm process, State is the tuple {CurrentStateName, CurrentStateData}.

For a gen_statem process, State is the tuple {CurrentState,CurrentData}.

For a gen_event process, State is a list of tuples, where each tuple corresponds to an event handler registered in the process and contains {Module, Id, HandlerState}, as follows:

Module

The module name of the event handler.

Id

The ID of the handler (which is false if it was registered without an ID).

HandlerState

The state of the handler.

If the callback module exports a function system_get_state/1, it is called in the target process to get its state. Its argument is the same as the Misc value returned by get_status/1,2, and function Module:system_get_state/1 is expected to extract the state of the callback module from it. Function system_get_state/1 must return {ok, State}, where State is the state of the callback module.

If the callback module does not export a system_get_state/1 function, get_state/1,2 assumes that the Misc value is the state of the callback module and returns it directly instead.

If the callback module's system_get_state/1 function crashes or throws an exception, the caller exits with error {callback_failed, {Module, system_get_state}, {Class, Reason}}, where Module is the name of the callback module and Class and Reason indicate details of the exception.

Function system_get_state/1 is primarily useful for user-defined behaviors and modules that implement OTP special processes. The gen_server, gen_fsm, gen_statem, and gen_event OTP behavior modules export this function, so callback modules for those behaviors need not to supply their own.

For more information about a process, including its state, see get_status/1 and get_status/2.

get_status(Name) -> Status

  • Name = name()
  • Status =
        {status, Pid :: pid(), {module, Module :: module()}, [SItem]}
  • SItem =
        (PDict :: [{Key :: term(), Value :: term()}]) |
        (SysState :: running | suspended) |
        (Parent :: pid()) |
        (Dbg :: [dbg_opt()]) |
        (Misc :: term())

get_status(Name, Timeout) -> Status

  • Name = name()
  • Timeout = timeout()
  • Status =
        {status, Pid :: pid(), {module, Module :: module()}, [SItem]}
  • SItem =
        (PDict :: [{Key :: term(), Value :: term()}]) |
        (SysState :: running | suspended) |
        (Parent :: pid()) |
        (Dbg :: [dbg_opt()]) |
        (Misc :: term())

Gets the status of the process.

The value of Misc varies for different types of processes, for example:

A gen_server process returns the state of the callback module.

A gen_fsm process returns information, such as its current state name and state data.

A gen_statem process returns information, such as its current state name and state data.

A gen_event process returns information about each of its registered handlers.

Callback modules for gen_server, gen_fsm, gen_statem, and gen_event can also change the value of Misc by exporting a function format_status/2, which contributes module-specific information. For details, see gen_server:format_status/2, gen_fsm:format_status/2, gen_statem:format_status/2, and gen_event:format_status/2.

install(Name, FuncSpec) -> ok

  • Name = name()
  • FuncSpec = {Func, FuncState}
  • Func = dbg_fun()
  • FuncState = term()

install(Name, FuncSpec, Timeout) -> ok

  • Name = name()
  • FuncSpec = {Func, FuncState}
  • Func = dbg_fun()
  • FuncState = term()
  • Timeout = timeout()

Enables installation of alternative debug functions. An example of such a function is a trigger, a function that waits for some special event and performs some action when the event is generated. For example, turning on low-level tracing.

Func is called whenever a system event is generated. This function is to return done, or a new Func state. In the first case, the function is removed. It is also removed if the function fails.

log(Name, Flag) -> ok | {ok, [system_event()]}

  • Name = name()
  • Flag = true | {true, N :: integer() >= 1} | false | get | print

log(Name, Flag, Timeout) -> ok | {ok, [system_event()]}

  • Name = name()
  • Flag = true | {true, N :: integer() >= 1} | false | get | print
  • Timeout = timeout()

Turns the logging of system events on or off. If on, a maximum of N events are kept in the debug structure (default is 10).

If Flag is get, a list of all logged events is returned.

If Flag is print, the logged events are printed to standard_io.

The events are formatted with a function that is defined by the process that generated the event (with a call to handle_debug/4).

log_to_file(Name, Flag) -> ok | {error, open_file}

  • Name = name()
  • Flag = (FileName :: string()) | false

log_to_file(Name, Flag, Timeout) -> ok | {error, open_file}

  • Name = name()
  • Flag = (FileName :: string()) | false
  • Timeout = timeout()

Enables or disables the logging of all system events in text format to the file. The events are formatted with a function that is defined by the process that generated the event (with a call to handle_debug/4).

no_debug(Name) -> ok

no_debug(Name, Timeout) -> ok

  • Name = name()
  • Timeout = timeout()

Turns off all debugging for the process. This includes functions that are installed explicitly with function install/2,3, for example, triggers.

remove(Name, Func) -> ok

remove(Name, Func, Timeout) -> ok

Removes an installed debug function from the process. Func must be the same as previously installed.

replace_state(Name, StateFun) -> NewState

  • Name = name()
  • StateFun = fun((State :: term()) -> NewState :: term())
  • NewState = term()

replace_state(Name, StateFun, Timeout) -> NewState

  • Name = name()
  • StateFun = fun((State :: term()) -> NewState :: term())
  • Timeout = timeout()
  • NewState = term()

Replaces the state of the process, and returns the new state.

Note!

These functions are intended only to help with debugging, and are not to be called from normal code. They are provided for convenience, allowing developers to avoid having to create their own custom state replacement functions.

Function StateFun provides a new state for the process. Argument State and the NewState return value of StateFun vary for different types of processes as follows:

For a gen_server process, State is the state of the callback module and NewState is a new instance of that state.

For a gen_fsm process, State is the tuple {CurrentStateName, CurrentStateData}, and NewState is a similar tuple, which can contain a new state name, new state data, or both.

For a gen_statem process, State is the tuple {CurrentState,CurrentData}, and NewState is a similar tuple, which can contain a new current state, new state data, or both.

For a gen_event process, State is the tuple {Module, Id, HandlerState} as follows:

Module

The module name of the event handler.

Id

The ID of the handler (which is false if it was registered without an ID).

HandlerState

The state of the handler.

NewState is a similar tuple where Module and Id are to have the same values as in State, but the value of HandlerState can be different. Returning a NewState, whose Module or Id values differ from those of State, leaves the state of the event handler unchanged. For a gen_event process, StateFun is called once for each event handler registered in the gen_event process.

If a StateFun function decides not to effect any change in process state, then regardless of process type, it can return its State argument.

If a StateFun function crashes or throws an exception, the original state of the process is unchanged for gen_server, gen_fsm, and gen_statem processes. For gen_event processes, a crashing or failing StateFun function means that only the state of the particular event handler it was working on when it failed or crashed is unchanged; it can still succeed in changing the states of other event handlers registered in the same gen_event process.

If the callback module exports a system_replace_state/2 function, it is called in the target process to replace its state using StateFun. Its two arguments are StateFun and Misc, where Misc is the same as the Misc value returned by get_status/1,2. A system_replace_state/2 function is expected to return {ok, NewState, NewMisc}, where NewState is the new state of the callback module, obtained by calling StateFun, and NewMisc is a possibly new value used to replace the original Misc (required as Misc often contains the state of the callback module within it).

If the callback module does not export a system_replace_state/2 function, replace_state/2,3 assumes that Misc is the state of the callback module, passes it to StateFun and uses the return value as both the new state and as the new value of Misc.

If the callback module's function system_replace_state/2 crashes or throws an exception, the caller exits with error {callback_failed, {Module, system_replace_state}, {Class, Reason}}, where Module is the name of the callback module and Class and Reason indicate details of the exception. If the callback module does not provide a system_replace_state/2 function and StateFun crashes or throws an exception, the caller exits with error {callback_failed, StateFun, {Class, Reason}}.

Function system_replace_state/2 is primarily useful for user-defined behaviors and modules that implement OTP special processes. The OTP behavior modules gen_server, gen_fsm, gen_statem, and gen_event export this function, so callback modules for those behaviors need not to supply their own.

resume(Name) -> ok

resume(Name, Timeout) -> ok

  • Name = name()
  • Timeout = timeout()

Resumes a suspended process.

statistics(Name, Flag) -> ok | {ok, Statistics}

  • Name = name()
  • Flag = true | false | get
  • Statistics = [StatisticsTuple] | no_statistics
  • StatisticsTuple =
        {start_time, DateTime1} |
        {current_time, DateTime2} |
        {reductions, integer() >= 0} |
        {messages_in, integer() >= 0} |
        {messages_out, integer() >= 0}
  • DateTime1 = DateTime2 = file:date_time()

statistics(Name, Flag, Timeout) -> ok | {ok, Statistics}

  • Name = name()
  • Flag = true | false | get
  • Statistics = [StatisticsTuple] | no_statistics
  • StatisticsTuple =
        {start_time, DateTime1} |
        {current_time, DateTime2} |
        {reductions, integer() >= 0} |
        {messages_in, integer() >= 0} |
        {messages_out, integer() >= 0}
  • DateTime1 = DateTime2 = file:date_time()
  • Timeout = timeout()

Enables or disables the collection of statistics. If Flag is get, the statistical collection is returned.

suspend(Name) -> ok

suspend(Name, Timeout) -> ok

  • Name = name()
  • Timeout = timeout()

Suspends the process. When the process is suspended, it only responds to other system messages, but not other messages.

terminate(Name, Reason) -> ok

terminate(Name, Reason, Timeout) -> ok

  • Name = name()
  • Reason = term()
  • Timeout = timeout()

Orders the process to terminate with the specified Reason. The termination is done asynchronously, so it is not guaranteed that the process is terminated when the function returns.

trace(Name, Flag) -> ok

trace(Name, Flag, Timeout) -> ok

  • Name = name()
  • Flag = boolean()
  • Timeout = timeout()

Prints all system events on standard_io. The events are formatted with a function that is defined by the process that generated the event (with a call to handle_debug/4).

Process Implementation Functions

The following functions are used when implementing a special process. This is an ordinary process, which does not use a standard behavior, but a process that understands the standard system messages.

Functions


debug_options(Options) -> [dbg_opt()]

  • Options = [Opt]
  • Opt =
        trace |
        log |
        {log, integer() >= 1} |
        statistics |
        {log_to_file, FileName} |
        {install, FuncSpec}
  • FileName = file:name()
  • FuncSpec = {Func, FuncState}
  • Func = dbg_fun()
  • FuncState = term()

Can be used by a process that initiates a debug structure from a list of options. The values of argument Opt are the same as for the corresponding functions.

get_debug(Item, Debug, Default) -> term()

  • Item = log | statistics
  • Debug = [dbg_opt()]
  • Default = term()

Gets the data associated with a debug option. Default is returned if Item is not found. Can be used by the process to retrieve debug data for printing before it terminates.

handle_debug(Debug, FormFunc, Extra, Event) -> [dbg_opt()]

This function is called by a process when it generates a system event. FormFunc is a formatting function, called as FormFunc(Device, Event, Extra) to print the events, which is necessary if tracing is activated. Extra is any extra information that the process needs in the format function, for example, the process name.

handle_system_msg(Msg, From, Parent, Module, Debug, Misc) ->
                     no_return()

  • Msg = term()
  • From = {pid(), Tag :: term()}
  • Parent = pid()
  • Module = module()
  • Debug = [dbg_opt()]
  • Misc = term()

This function is used by a process module to take care of system messages. The process receives a {system, From, Msg} message and passes Msg and From to this function.

This function never returns. It calls either of the following functions:

Module:system_continue(Parent, NDebug, Misc), where the process continues the execution.

Module:system_terminate(Reason, Parent, Debug, Misc), if the process is to terminate.

Module must export the following:

system_continue/3 system_terminate/4 system_code_change/4 system_get_state/1 system_replace_state/2

Argument Misc can be used to save internal data in a process, for example, its state. It is sent to Module:system_continue/3 or Module:system_terminate/4.

Prints the logged system events in the debug structure, using FormFunc as defined when the event was generated by a call to handle_debug/4.

Module:system_code_change(Misc, Module, OldVsn, Extra) -> {ok, NMisc}

  • Misc = term()
  • OldVsn = undefined | term()
  • Module = atom()
  • Extra = term()
  • NMisc = term()

Called from handle_system_msg/6 when the process is to perform a code change. The code change is used when the internal data structure has changed. This function converts argument Misc to the new data structure. OldVsn is attribute vsn of the old version of the Module. If no such attribute is defined, the atom undefined is sent.

Module:system_continue(Parent, Debug, Misc) -> none()

  • Parent = pid()
  • Debug = [dbg_opt()]
  • Misc = term()

Called from handle_system_msg/6 when the process is to continue its execution (for example, after it has been suspended). This function never returns.

Module:system_get_state(Misc) -> {ok, State}

  • Misc = term()
  • State = term()

Called from handle_system_msg/6 when the process is to return a term that reflects its current state. State is the value returned by get_state/2.

Module:system_replace_state(StateFun, Misc) -> {ok, NState, NMisc}

  • StateFun = fun((State :: term()) -> NState)
  • Misc = term()
  • NState = term()
  • NMisc = term()

Called from handle_system_msg/6 when the process is to replace its current state. NState is the value returned by replace_state/3.

Module:system_terminate(Reason, Parent, Debug, Misc) -> none()

  • Reason = term()
  • Parent = pid()
  • Debug = [dbg_opt()]
  • Misc = term()

Called from handle_system_msg/6 when the process is to terminate. For example, this function is called when the process is suspended and its parent orders shutdown. It gives the process a chance to do a cleanup. This function never returns.