NAME Proc::Govern - Run child process and govern its various aspects VERSION This document describes version 0.212 of Proc::Govern (from Perl distribution Proc-Govern), released on 2021-08-06. SYNOPSIS To use as Perl module: use Proc::Govern qw(govern_process); my $exit_code = govern_process( command => ['/path/to/myapp', 'some', 'args'], # required name => 'myapp', # optional, default will be taken from command. must be alphanum only. # options to control number of instances single_instance => 1, # optional. if set to 1 will fail if another instance is already running. # implemented with pid files. pid_dir => "/var/run", # optional. defaults to /var/run. pid filename is '.pid' on_multiple_instance => "exit", # optional. can be set to 'exit' to silently exit when another instance # is already running. otherwise prints an error msg. # timeout options timeout => 3600, # optional, default is no timeout killfam => 1, # optional. can be set to 1 to kill using killfam. # output logging options log_stderr => { # optional, passed to File::Write::Rotate dir => '/var/log/myapp', size => '16M', histories => 12, }, log_stdout => { # optional, passed to File::Write::Rotate dir => '/var/log/myapp.out', size => '16M', histories => 12, }, log_combined => { # optional, passed to File::Write::Rotate dir => '/var/log/myapp', size => '16M', histories => 12, }, show_stdout => 0, # optional. can be set to 0 to suppress stdout output. note: # stdout can still be logged even if not shown. show_stderr => 0, # optional. can be set to 0 to suppress stderr output. note: # stderr can still be logged even if not shown. # load control options load_watch => 1, # optional. can be set to 1 to enable load control. load_high_limit => 5, # optional, default 1.25. at what load command should be paused? can also be set # to a coderef that returns 1 when load is considered too high. # note: just setting load_high_limit or load_low_limit won't automatically # enable load control. load_low_limit => 2, # optional, default 0.25. at what load paused command should be resumed? can also # be set to a coderef that returns 1 when load is considered low already. load_check_every => 20, # optional, default 10. frequency of load checking (in seconds). # restart options restart_if_failed => 1, # optional. if set to 1, will restart command if exit code is not zero. restart_if_no_output_after => 60, # optional. if set to a positive number, will restart command after no # stdout output after this many seconds # screensaver control options no_screensaver => 1, # optional. if set to 1, will prevent screensaver from being activated while command # is running. # power management options no_sleep => 1, # optional. if set to 1, will prevent system from sleeping while command is running. # this includes hybrid sleep, suspend, and hibernate. # setuid options euid => 1000, # optional. sets euid of command process. note: need to be root to be able to setuid. egid => 1000, # optional. sets egid(s) of command process. ); To use via command-line: % govproc [options] ... Example: % govproc --timeout 86400 --load-watch --load-high 4 --load-low 0.75 backup-db DESCRIPTION Proc::Govern is a child process manager. It is meant to be a convenient bundle (a single parent/monitoring process) for functionalities commonly needed when managing a child process. It comes with a command-line interface, govproc. Background story: I first created this module to record STDERR output of scripts that I run from cron. The scripts already log debugging information using Log::Any to an autorotated log file (using Log::Dispatch::FileRotate, via Log::Any::Adapter::Log4perl, via Log::Any::App). However, when the scripts warn/die, or when the programs that the scripts execute emit messages to STDERR, they do not get recorded. Thus, every script is then run through govproc. From there, govproc naturally gets additional features like timeout, preventing running multiple instances, and so on. Currently the following governing functionalities are available: * logging of STDOUT & STDERR (or both) output to an autorotated file * execution time limit * set (CPU) nice level (priority) * preventing multiple instances from running simultaneously * load watch * autorestart * preventing system from sleeping while process is running * preventing screensaver from activating while process is running In the future the following features are also planned or contemplated: * CPU time limit * memory limit With an option to autorestart if process' memory size grow out of limit. * other resource usage limit * fork/start multiple processes * set I/O nice level (scheduling priority/class) * limit STDIN input, STDOUT/STDERR output? * trap/handle some signals for the child process? * provide daemon functionality? * provide network server functionality? Inspiration: djb's tcpserver. * set/clean environment variables EXIT CODES Below is the list of exit codes that Proc::Govern uses: * 124 Timeout. The exit code is also used by timeout. * 202 Another instance is already running (when "single_instance" option is true). FUNCTIONS govern_process Usage: govern_process(%args) -> int Run child process and govern its various aspects. It basically uses IPC::Run and a loop to check various conditions during the lifetime of the child process. TODO: restart_delay, check_alive. This function is not exported by default, but exportable. Arguments ('*' denotes required arguments): * command* => *array[str]* Command to run. Passed to IPC::Run's "start()". * egid => *str* Set EGID(s) of command process. Need to be root to be able to setuid. * euid => *unix::local_uid* Set EUID of command process. Need to be root to be able to setuid. * killfam => *bool* Instead of kill, use killfam (kill family of process). This can be useful e.g. to control load more successfully, if the load-generating processes are the subchildren of the one we're governing. This requires Proc::Killfam CPAN module, which is installed separately. * load_check_every => *duration* (default: 10) Frequency of load checking (in seconds). * load_high_limit => *int|code* Limit above which program should be suspended, if load watching is enabled. If integer, will be compared against Unix::Uptime"->load"'s $load1 value. Alternatively, you can provide a custom routine here, code should return true if load is considered too high. Note: "load_watch" needs to be set to true first for this to be effective. * load_low_limit => *int|code* Limit below which program should resume, if load watching is enabled. If integer, will be compared against Unix::Uptime"->load"'s $load1 value. Alternatively, you can provide a custom routine here, code should return true if load is considered low. Note: "load_watch" needs to be set to true first for this to be effective. * load_watch => *bool* (default: 0) If set to 1, enable load watching. Program will be suspended when system load is too high and resumed if system load returns to a lower limit. * log_combined => *hash* Will be passed as arguments to `File::Write::Rotate`. Specify logging for STDOUT and STDERR. Logging will be done using File::Write::Rotate. Known hash keys: "dir" (STR, defaults to "/var/log", directory, preferably absolute, where the log file(s) will reside, should already exist and be writable, will be passed to File::Write::Rotate's constructor), "size" (int, also passed to File::Write::Rotate's constructor), "histories" (int, also passed to File::Write::Rotate's constructor), "period" (str, also passed to File::Write::Rotate's constructor). Instead of this option, you can also use "log_stdout" and "log_stderr" separately to log stdout and stderr to different directory. * log_stderr => *hash* Will be passed as arguments to `File::Write::Rotate`. Specify logging for STDERR. Logging will be done using File::Write::Rotate. Known hash keys: "dir" (STR, defaults to "/var/log", directory, preferably absolute, where the log file(s) will reside, should already exist and be writable, will be passed to File::Write::Rotate's constructor), "size" (int, also passed to File::Write::Rotate's constructor), "histories" (int, also passed to File::Write::Rotate's constructor), "period" (str, also passed to File::Write::Rotate's constructor). Instead of this option, you can also use "log_combined" to log both stdout and stderr to the same directory. * log_stdout => *hash* Will be passed as arguments to `File::Write::Rotate`. Specify logging for STDOUT. Logging will be done using File::Write::Rotate. Known hash keys: "dir" (STR, defaults to "/var/log", directory, preferably absolute, where the log file(s) will reside, should already exist and be writable, will be passed to File::Write::Rotate's constructor), "size" (int, also passed to File::Write::Rotate's constructor), "histories" (int, also passed to File::Write::Rotate's constructor), "period" (str, also passed to File::Write::Rotate's constructor). Instead of this option, you can also use "log_combined" to log both stdout and stderr to the same directory. * name => *str* Should match regex "\A\w+\z". Used in several places, e.g. passed as "prefix" in File::Write::Rotate's constructor as well as used as name of PID file. If not given, will be taken from command. * nice => *int* Set nice/priority level. * no_screensaver => *true* Prevent screensaver from being activated. * no_sleep => *true* Prevent system from sleeping. * on_multiple_instance => *str* Can be set to "exit" to silently exit when there is already a running instance. Otherwise, will print an error message "Program already running". * pid_dir => *dirname* Directory to put PID file in. * restart_if_failed => *bool* If set to true, do restart. * restart_if_no_output_after => *uint* If set to positive number, restart when there is no output after this many seconds. * show_stderr => *bool* (default: 1) Can be used to turn off STDERR output. If you turn this off and set "log_stderr", STDERR output will still be logged but not displayed to screen. * show_stdout => *bool* (default: 1) Just like `show_stderr`, but for STDOUT. * single_instance => *bool* (default: 0) If set to true, will prevent running multiple instances simultaneously. Implemented using Proc::PID::File. You will also normally have to set "pid_dir", unless your script runs as root, in which case you can use the default "/var/run". * timeout => *duration* Apply execution time limit, in seconds. After this time is reached, process (and all its descendants) are first sent the TERM signal. If after 30 seconds pass some processes still survive, they are sent the KILL signal. The killing is implemented using IPC::Run's "kill_kill()". Upon timeout, exit code is set to 124. Return value: Child's exit code (int) FAQ Why use Proc::Govern? The main feature this module offers is convenience: it creates a single parent process to monitor child process. This fact is more pronounced when you need to monitor lots of child processes. If you use, on the other hand, separate parent/monitoring process for timeout and then a separate one for CPU watching, and so on, there will potentially be a lot more processes running on the system. Compare for example: % govproc --timeout 10 --load-watch CMD which only creates one monitoring process, versus: % timeout 10s loadwatch CMD which will create two parent processes (three actually, loadwatch apparently forks first). ENVIRONMENT HOMEPAGE Please visit the project's homepage at . SOURCE Source repository is at . BUGS Please report any bugs or feature requests on the bugtracker website When submitting a bug or request, please include a test-file or a patch to an existing test-file that illustrates the bug or desired feature. CAVEATS Not yet tested on Win32. SEE ALSO Forks::Super (since 2009) extends the fork(), wait(), and waitpid() functions with some process/job management features, e.g. set timeout, retries, chdir, environment, umask, delay before start, control STDIN/STDOUT/STDERR, load control, priority/nice level, daemon, and a lot more. Had I known about this module, I probably wouldn't start Proc::Govern. Proc::Govern uses IPC::Run at its core; you might want to use it directly. It already has some features, e.g. controlling STDIN/STDOUT/STDERR and timeout. But the main selling point of IPC::Run is its redirection and piping features. IPC::Cmd is a core module, but can also use IPC::Run (as well as IPC::Open3 on systems that do not have IPC::Run installed or on some archaic systems that do not support IPC::Run). Its "run_forked()" routine has some of Proc::Govern's functionalities like capturing stdout and stderr, timeout, hiding (discarding) output. If you only need those functionalities, you can use IPC::Cmd as it is a core module. Proc::Govern attempts (or will attempt, some day) to provide the functionality (or some of the functionality) of the builtins/modules/programs listed below: * Starting/autorestarting djb's supervise, http://cr.yp.to/daemontools/supervise.html * Pausing under high system load loadwatch. This program also has the ability to run N copies of program and interactively control stopping/resuming via Unix socket. cPanel also includes a program called cpuwatch. * Preventing multiple instances of program running simultaneously Proc::PID::File, Sys::RunAlone * Execution time limit timeout. alarm() (but alarm() cannot be used to timeout external programs started by system()/backtick). Sys::RunUntil * Logging djb's multilog, http://cr.yp.to/daemontools/multilog.html Although not really related, Perinci::Sub::Wrapper. This module also bundles functionalities like timeout, retries, argument validation, etc into a single function wrapper. AUTHOR perlancar CONTRIBUTORS * perlancar * Steven Haryanto COPYRIGHT AND LICENSE This software is copyright (c) 2021, 2020, 2019, 2018, 2017, 2016, 2015, 2014, 2013, 2012 by perlancar. This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.