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PERLFORK !!!PERLFORK NAME SYNOPSIS DESCRIPTION BUGS AUTHOR SEE ALSO ---- !!NAME perlfork - Perl's ''fork()'' emulation ( EXPERIMENTAL , subject to change) !!SYNOPSIS WARNING: As of the 5.6.1 release, the fork() emulation continues to be an experimental feature. Use in production applications is not recommended. See the Perl provides a ''fork()'' keyword that corresponds to the Unix system call of the same name. On most Unix-like platforms where the ''fork()'' system call is available, Perl's ''fork()'' simply calls it. On some platforms such as Windows where the ''fork()'' system call is not available, Perl can be built to emulate ''fork()'' at the interpreter level. While the emulation is designed to be as compatible as possible with the real ''fork()'' at the level of the Perl program, there are certain important differences that stem from the fact that all the pseudo child ``processes'' created this way live in the same real process as far as the operating system is concerned. This document provides a general overview of the capabilities and limitations of the ''fork()'' emulation. Note that the issues discussed here are not applicable to platforms where a real ''fork()'' is available and Perl has been configured to use it. !!DESCRIPTION The ''fork()'' emulation is implemented at the level of the Perl interpreter. What this means in general is that running ''fork()'' will actually clone the running interpreter and all its state, and run the cloned interpreter in a separate thread, beginning execution in the new thread just after the point where the ''fork()'' was called in the parent. We will refer to the thread that implements this child ``process'' as the pseudo-process. To the Perl program that called ''fork()'', all this is designed to be transparent. The parent returns from the ''fork()'' with a pseudo-process ID that can be subsequently used in any process manipulation functions; the child returns from the ''fork()'' with a value of 0 to signify that it is the child pseudo-process. __Behavior of other Perl features in forked pseudo-processes__ Most Perl features behave in a natural way within pseudo-processes. $$ or $PROCESS_ID This special variable is correctly set to the pseudo-process ID . It can be used to identify pseudo-processes within a particular session. Note that this value is subject to recycling if any pseudo-processes are launched after others have been ''wait()''-ed on. %ENV Each pseudo-process maintains its own virtual environment. Modifications to %ENV affect the virtual environment, and are only visible within that pseudo-process, and in any processes (or pseudo-processes) launched from it. ''chdir()'' and all other builtins that accept filenames Each pseudo-process maintains its own virtual idea of the current directory. Modifications to the current directory using ''chdir()'' are only visible within that pseudo-process, and in any processes (or pseudo-processes) launched from it. All file and directory accesses from the pseudo-process will correctly map the virtual working directory to the real working directory appropriately. ''wait()'' and ''waitpid()'' ''wait()'' and ''waitpid()'' can be passed a pseudo-process ID returned by ''fork()''. These calls will properly wait for the termination of the pseudo-process and return its status. ''kill()'' ''kill()'' can be used to terminate a pseudo-process by passing it the ID returned by ''fork()''. This should not be used except under dire circumstances, because the operating system may not guarantee integrity of the process resources when a running thread is terminated. Note that using ''kill()'' on a pseudo-''process()'' may typically cause memory leaks, because the thread that implements the pseudo-process does not get a chance to clean up its resources. ''exec()'' Calling ''exec()'' within a pseudo-process actually spawns the requested executable in a separate process and waits for it to complete before exiting with the same exit status as that process. This means that the process ID reported within the running executable will be different from what the earlier Perl ''fork()'' might have returned. Similarly, any process manipulation functions applied to the ID returned by ''fork()'' will affect the waiting pseudo-process that called ''exec()'', not the real process it is waiting for after the ''exec()''. ''exit()'' ''exit()'' always exits just the executing pseudo-process, after automatically ''wait()''-ing for any outstanding child pseudo-processes. Note that this means that the process as a whole will not exit unless all running pseudo-processes have exited. Open handles to files, directories and network sockets All open handles are ''dup()''-ed in pseudo-processes, so that closing any handles in one process does not affect the others. See below for some limitations. __Resource limits__ In the eyes of the operating system, pseudo-processes created via the ''fork()'' emulation are simply threads in the same process. This means that any process-level limits imposed by the operating system apply to all pseudo-processes taken together. This includes any limits imposed by the operating system on the number of open file, directory and socket handles, limits on disk space usage, limits on memory size, limits on CPU utilization etc. __Killing the parent process__ If the parent process is killed (either using Perl's ''kill()'' builtin, or using some external means) all the pseudo-processes are killed as well, and the whole process exits. __Lifetime of the parent process and pseudo-processes__ During the normal course of events, the parent process and every pseudo-process started by it will wait for their respective pseudo-children to complete before they exit. This means that the parent and every pseudo-child created by it that is also a pseudo-parent will only exit after their pseudo-children have exited. A way to mark a pseudo-processes as running detached from their parent (so that the parent would not have to ''wait()'' for them if it doesn't want to) will be provided in future. __CAVEATS AND LIMITATIONS__ BEGIN blocks The ''fork()'' emulation will not work entirely correctly when called from within a BEGIN block. The forked copy will run the contents of the BEGIN block, but will not continue parsing the source stream after the BEGIN block. For example, consider the following code: BEGIN { fork and exit; # fork child and exit the parent print This will print: inner rather than the expected: inner outer This limitation arises from fundamental technical difficulties in cloning and restarting the stacks used by the Perl parser in the middle of a parse. Open filehandles Any filehandles open at the time of the ''fork()'' will be ''dup()''-ed. Thus, the files can be closed independently in the parent and child, but beware that the ''dup()''-ed handles will still share the same seek pointer. Changing the seek position in the parent will change it in the child and vice-versa. One can avoid this by opening files that need distinct seek pointers separately in the child. Forking pipe ''open()'' not yet implemented The open(FOO, and open(BAR, constructs are not yet implemented. This limitation can be easily worked around in new code by creating a pipe explicitly. The following example shows how to write to a forked child: # simulate open(FOO, if (pipe_to_fork('FOO')) { # parent print FOO And this one reads from the child: # simulate open(FOO, if (pipe_from_fork('BAR')) { # parent while ( Forking pipe ''open()'' constructs will be supported in future. Global state maintained by XSUBs External subroutines (XSUBs) that maintain their own global state may not work correctly. Such XSUBs will either need to maintain locks to protect simultaneous access to global data from different pseudo-processes, or maintain all their state on the Perl symbol table, which is copied naturally when ''fork()'' is called. A callback mechanism that provides extensions an opportunity to clone their state will be provided in the near future. Interpreter embedded in larger application The ''fork()'' emulation may not behave as expected when it is executed in an application which embeds a Perl interpreter and calls Perl APIs that can evaluate bits of Perl code. This stems from the fact that the emulation only has knowledge about the Perl interpreter's own data structures and knows nothing about the containing application's state. For example, any state carried on the application's own call stack is out of reach. Thread-safety of extensions Since the ''fork()'' emulation runs code in multiple threads, extensions calling into non-thread-safe libraries may not work reliably when calling ''fork()''. As Perl's threading support gradually becomes more widely adopted even on platforms with a native ''fork()'', such extensions are expected to be fixed for thread-safety. !!BUGS Perl's regular expression engine currently does not play very nicely with the ''fork()'' emulation. There are known race conditions arising from the regular expression engine modifying state carried in the opcode tree at run time (the ''fork()'' emulation relies on the opcode tree being immutable). This typically happens when the regex contains paren groups or variables interpolated within it that force a run time recompilation of the regex. Due to this major bug, the ''fork()'' emulation is not recommended for use in production applications at this time. Having pseudo-process IDs be negative integers breaks down for the integer -1 because the ''wait()'' and ''waitpid()'' functions treat this number as being special. The tacit assumption in the current implementation is that the system never allocates a thread ID of 1 for user threads. A better representation for pseudo-process IDs will be implemented in future. This document may be incomplete in some respects. !!AUTHOR Support for concurrent interpreters and the ''fork()'' emulation was implemented by !ActiveState, with funding from Microsoft Corporation. This document is authored and maintained by Gurusamy Sarathy !!SEE ALSO ``fork'' in perlfunc, perlipc ----
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