freebsd-dev/contrib/perl5/README.threads

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Building
If you want to build with multi-threading support and you are
running one of the following:
* Linux 2.x (with the LinuxThreads library installed: that's
the linuxthreads and linuxthreads-devel RPMs for RedHat)
* Digital UNIX 4.x
* Digital UNIX 3.x (Formerly DEC OSF/1), see additional note below
* Solaris 2.x for recentish x (2.5 is OK)
* IRIX 6.2 or newer. 6.2 will require a few os patches.
IMPORTANT: Without patch 2401, a kernel bug in IRIX 6.2 will
cause your machine to panic and crash when running threaded perl.
IRIX 6.3 and up should be OK. See lower down for patch details.
then you should be able to use
./Configure -Dusethreads -des
make
and ignore the rest of this "Building" section. If it doesn't
work or you are using another platform which you believe supports
POSIX.1c threads then read on. Additional information may be in
a platform-specific "hints" file in the hints/ subdirectory.
Omit the -d from your ./Configure arguments. For example, use
./Configure -Dusethreads
When Configure prompts you for ccflags, insert any other arguments in
there that your compiler needs to use POSIX threads. When Configure
prompts you for linking flags, include any flags required for
threading (usually nothing special is required here). Finally, when
COnfigure prompts you for libraries, include any necessary libraries
(e.g. -lpthread). Pay attention to the order of libraries. It is
probably necessary to specify your threading library *before* your
standard C library, e.g. it might be necessary to have -lpthread -lc,
instead of -lc -lpthread.
Once you have specified all your compiler flags, you can have Configure
accept all the defaults for the remainder of the session by typing &-d
at any Configure prompt.
Some additional notes (some of these may be obsolete now, other items
may be handled automatically):
For Digital Unix 4.x:
Add -pthread to ccflags
Add -pthread to ldflags
Add -lpthread -lc_r to lddlflags
For some reason, the extra includes for pthreads make Digital UNIX
complain fatally about the sbrk() delcaration in perl's malloc.c
so use the native malloc, e.g. sh Configure -Uusemymalloc, or
manually edit your config.sh as follows:
Change usemymalloc to n
Zap mallocobj and mallocsrc (foo='')
Change d_mymalloc to undef
For Digital Unix 3.x (Formerly DEC OSF/1):
Add -DOLD_PTHREADS_API to ccflags
If compiling with the GNU cc compiler, remove -thread from ccflags
(The following should be done automatically if you call Configure
with the -Dusethreads option).
Add -lpthread -lmach -lc_r to libs (in the order specified).
For IRIX:
(This should all be done automatically by the hint file).
Add -lpthread to libs
For IRIX 6.2, you have to have the following patches installed:
1404 Irix 6.2 Posix 1003.1b man pages
1645 IRIX 6.2 & 6.3 POSIX header file updates
2000 Irix 6.2 Posix 1003.1b support modules
2254 Pthread library fixes
2401 6.2 all platform kernel rollup
IMPORTANT: Without patch 2401, a kernel bug in IRIX 6.2 will
cause your machine to panic and crash when running threaded perl.
IRIX 6.3 and up should be OK.
For IRIX 6.3 and 6.4 the pthreads should work out of the box.
Thanks to Hannu Napari <Hannu.Napari@hut.fi> for the IRIX
pthreads patches information.
For AIX:
(This should all be done automatically by the hint file).
Change cc to xlc_r or cc_r.
Add -DNEED_PTHREAD_INIT to ccflags and cppflags
Add -lc_r to libswanted
Change -lc in lddflags to be -lpthread -lc_r -lc
Now you can do a
make
O/S specific bugs
Irix 6.2: See the Irix warning above.
LinuxThreads 0.5 has a bug which can cause file descriptor 0 to be
closed after a fork() leading to many strange symptoms. Version 0.6
has this fixed but the following patch can be applied to 0.5 for now:
----------------------------- cut here -----------------------------
--- linuxthreads-0.5/pthread.c.ORI Mon Oct 6 13:55:50 1997
+++ linuxthreads-0.5/pthread.c Mon Oct 6 13:57:24 1997
@@ -312,8 +312,10 @@
free(pthread_manager_thread_bos);
pthread_manager_thread_bos = pthread_manager_thread_tos = NULL;
/* Close the two ends of the pipe */
- close(pthread_manager_request);
- close(pthread_manager_reader);
+ if (pthread_manager_request >= 0) {
+ close(pthread_manager_request);
+ close(pthread_manager_reader);
+ }
pthread_manager_request = pthread_manager_reader = -1;
/* Update the pid of the main thread */
self->p_pid = getpid();
----------------------------- cut here -----------------------------
Building the Thread extension
The Thread extension is now part of the main perl distribution tree.
If you did Configure -Dusethreads then it will have been added to
the list of extensions automatically.
You can try some of the tests with
cd ext/Thread
perl create.t
perl join.t
perl lock.t
perl io.t
etc.
The io one leaves a thread reading from the keyboard on stdin so
as the ping messages appear you can type lines and see them echoed.
Try running the main perl test suite too. There are known
failures for some of the DBM/DB extensions (if their underlying
libraries were not compiled to be thread-aware).
Bugs
* FAKE_THREADS should produce a working perl but the Thread
extension won't build with it yet.
* There's a known memory leak (curstack isn't freed at the end
of each thread because it causes refcount problems that I
haven't tracked down yet) and there are very probably others too.
* There may still be races where bugs show up under contention.
* Need to document "lock", Thread.pm, Queue.pm, ...
Debugging
Use the -DS command-line option to turn on debugging of the
multi-threading code. Under Linux, that also turns on a quick
hack I did to grab a bit of extra information from segfaults.
If you have a fancier gdb/threads setup than I do then you'll
have to delete the lines in perl.c which say
#if defined(DEBUGGING) && defined(USE_THREADS) && defined(__linux__)
DEBUG_S(signal(SIGSEGV, (void(*)(int))catch_sigsegv););
#endif
Background
Some old globals (e.g. stack_sp, op) and some old per-interpreter
variables (e.g. tmps_stack, cxstack) move into struct thread.
All fields of struct thread which derived from original perl
variables have names of the form Tfoo. For example, stack_sp becomes
the field Tstack_sp of struct thread. For those fields which moved
from original perl, thread.h does
#define foo (thr->Tfoo)
This means that all functions in perl which need to use one of these
fields need an (automatic) variable thr which points at the current
thread's struct thread. For pp_foo functions, it is passed around as
an argument, for other functions they do
dTHR;
which declares and initialises thr from thread-specific data
via pthread_getspecific. If a function fails to compile with an
error about "no such variable thr", it probably just needs a dTHR
at the top.
Fake threads
For FAKE_THREADS, thr is a global variable and perl schedules threads
by altering thr in between appropriate ops. The next and prev fields
of struct thread keep all fake threads on a doubly linked list and
the next_run and prev_run fields keep all runnable threads on a
doubly linked list. Mutexes are stubs for FAKE_THREADS. Condition
variables are implemented as a list of waiting threads.
Mutexes and condition variables
The API is via macros MUTEX_{INIT,LOCK,UNLOCK,DESTROY} and
COND_{INIT,WAIT,SIGNAL,BROADCAST,DESTROY}.
A mutex is only required to be a simple, fast mutex (e.g. it does not
have to be recursive). It is only ever held across very short pieces
of code. Condition variables are only ever signalled/broadcast while
their associated mutex is held. (This constraint simplifies the
implementation of condition variables in certain porting situations.)
For POSIX threads, perl mutexes and condition variables correspond to
POSIX ones. For FAKE_THREADS, mutexes are stubs and condition variables
are implmented as lists of waiting threads. For FAKE_THREADS, a thread
waits on a condition variable by removing itself from the runnable
list, calling SCHEDULE to change thr to the next appropriate
runnable thread and returning op (i.e. the new threads next op).
This means that fake threads can only block while in PP code.
A PP function which contains a COND_WAIT must be prepared to
handle such restarts and can use the field "private" of struct
thread to record its state. For fake threads, COND_SIGNAL and
COND_BROADCAST work by putting back all the threads on the
condition variables list into the run queue. Note that a mutex
must *not* be held while returning from a PP function.
Perl locks and condition variables are both implemented as a
condpair_t structure, containing a mutex, an "owner" condition
variable, an owner thread field and another condition variable).
The structure is attached by 'm' magic to any SV. pp_lock locks
such an object by waiting on the ownercond condition variable until
the owner field is zero and then setting the owner field to its own
thread pointer. The lock is semantically recursive so if the owner
field already matches the current thread then pp_lock returns
straight away. If the owner field has to be filled in then
unlock_condpair is queued as an end-of-block destructor and
that function zeroes out the owner field and signals the ownercond
condition variable, thus waking up any other thread that wants to
lock it. When used as a condition variable, the condpair is locked
(involving the above wait-for-ownership and setting the owner field)
and the spare condition variable field is used for waiting on.
Thread states
$t->join
R_JOINABLE ---------------------> R_JOINED >----\
| \ pthread_join(t) | ^ |
| \ | | join | pthread_join
| \ | | |
| \ | \------/
| \ |
| \ |
| $t->detach\ pthread_detach |
| _\| |
ends| R_DETACHED ends | unlink
| \ |
| ends \ unlink |
| \ |
| \ |
| \ |
| \ |
| \ |
V join detach _\| V
ZOMBIE ----------------------------> DEAD
pthread_join pthread_detach
and unlink and unlink
Malcolm Beattie
mbeattie@sable.ox.ac.uk
Last updated: 27 November 1997
Configure-related info updated 16 July 1998 by
Andy Dougherty <doughera@lafayette.edu>