PTHREADS-WIN32 SNAPSHOT 2001-06-04 ---------------------------------- Web Site: http://sources.redhat.com/pthreads-win32/ FTP Site: ftp://sources.redhat.com/pub/pthreads-win32 Coordinator: Ross Johnson We are pleased to announce the availability of a new snapshot of Pthreads-win32, an Open Source Software (OSS) implementation of the Threads component of the POSIX 1003.1c 1995 Standard for Microsoft's Win32 environment. Some functions from POSIX 1003.1b are also supported including semaphores. Other related functions include the set of read-write lock functions. Parts of the implementation also comply with the Open Group's Unix 98 specification for compatibility with major Unix implementations and Linux. Pthreads-win32 is free software, distributed under the GNU Library General Public License (LGPL). Please see the 'Acknowledgements' section at the end of this announcement for the list of contributors. Change Summary (since the last snapshot) ---------------------------------------- (See the ChangeLog file for details.) New: - Async cancellation should now work for Windows running on the following processors: IX86, MIPS, ALPHA, PPC. - contributors name misplaced (please contact me if it's you) - New functions (no-ops) for source code compatibility: pthread_getconcurrency() Returns the value previously set by pthread_setconcurrency() or 0 (zero) if no value was previously set. The implementation does not currently use this value. pthread_setconcurrency() Accepts any value >= 0 but does not have any effect; returns '0' or EINVAL if the value is < 0 pthread_attr_getscope() pthread_attr_setscope() Currently only return ENOSYS - The following mutex types and related functions are now supported: pthread_mutexattr_gettype() pthread_mutexattr_settype() PTHREAD_MUTEX_DEFAULT PTHREAD_MUTEX_NORMAL or PTHREAD_MUTEX_FAST_NP PTHREAD_MUTEX_ERRORCHECK or PTHREAD_MUTEX_ERRORCHECK_NP PTHREAD_MUTEX_RECURSIVE or PTHREAD_MUTEX_RECURSIVE_NP The *_NP versions are for Linux portability. In this implementation PTHREAD_MUTEX_DEFAULT is mapped to PTHREAD_MUTEX_NORMAL for compatibility with major Unix vendors. This is also the default if no type is specified. Please note that the default behaviour in previous versions of the library was equivalent to PTHREAD_MUTEX_RECURSIVE. This will be a problem for some applications unless they are updated to explicitly set the type of any mutexes that are, or could be, locked recursively. PTHREAD_MUTEX_NORMAL will cause thread deadlock if the owner of a mutex tries to relock it without first unlocking it. It has slightly less overhead that other types. - Thomas Pfaff - Pthreads-win32 mutexes are now based on Win32 critical sections for all Windows versions. The implementation no longer depends on TryEnterCriticalSection. - Thomas Pfaff - New implementation of condition variables which attempts to correct problems of spurious wakeups, unfairness, and broadcast deadlock. See README.CV for details of the discussion. - Alexander Terekhov - Louis Thomas Bugs fixed: - Pthread_mutex_trylock() now properly returns EBUSY even when the current thread owns the mutex. Consequently, pthread_mutex_destroy() will no longer destroy a locked mutex (it will return EBUSY). - Thomas Pfaff - Errno warnings and building with /MD; calling conventions (stdcall v cdecl); thread termination problems; - Milan Gardian Known bugs in this snapshot --------------------------- 1. Under MS VC++ (only tested with version 6.0), a term_func set via the standard C++ set_terminate() function is not called for some reason. The code - in private.c:ptw32_threadStart() - makes an explicit call to terminate() which works as expected under MinGW32 g++ doesn't appear to run the term_func under MC VC++ 6.0. 2. Cancellation problems in optimised code - Milan Gardian The cancellation (actually, cleanup-after-cancel) tests fail when using VC (professional) optimisation switches (/O1 or /O2) in pthreads library. I have not investigated which concrete optimisation technique causes this problem (/Og, /Oi, /Ot, /Oy, /Ob1, /Gs, /Gf, /Gy, etc.), but here is a summary of builds and corresponding failures: * pthreads VSE (optimised tests): OK * pthreads VCE (optimised tests): Failed "cleanup1" test (runtime) * pthreads VSE (DLL in CRT, optimised tests): OK * pthreads VCE (DLL in CRT, optimised tests): Failed "cleanup1" test (runtime) Please note that while in VSE version of the pthreads library the optimisation does not really have any impact on the tests (they pass OK), in VCE version addition of optimisation (/O2 in this case) causes the tests to fail uniformly - either in "cleanup0" or "cleanup1" test cases. Please note that all the tests above use default pthreads DLL (no optimisations, linked with either static or DLL CRT, based on test type). Therefore the problem lies not within the pthreads DLL but within the compiled client code (the application using pthreads -> involvement of "pthread.h"). I think the message of this section is that usage of VCE version of pthreads in applications relying on cancellation/cleanup AND using optimisations for creation of production code is highly unreliable for the current version of the pthreads library. Caveats ------- 1. Due to what is believed to be a C++ compliance error in VC++, if your application contains catch(...) blocks in your POSIX threads then you will need to replace the "catch(...)" with the macro "PtW32Catch", eg. #ifdef PtW32Catch PtW32Catch { ... } #else catch(...) { ... } #endif Otherwise neither pthreads cancelation nor pthread_exit() will work reliably. Level of standards conformance ------------------------------ The following POSIX 1003.1c 1995 options are defined: _POSIX_THREADS _POSIX_THREAD_SAFE_FUNCTIONS _POSIX_THREAD_ATTR_STACKSIZE The following POSIX 1003.1c 1995 options are not defined: _POSIX_THREAD_ATTR_STACKADDR _POSIX_THREAD_PRIORITY_SCHEDULING _POSIX_THREAD_PRIO_INHERIT _POSIX_THREAD_PRIO_PROTECT _POSIX_THREAD_PROCESS_SHARED The following POSIX 1003.1b option is defined: _POSIX_SEMAPHORES The following functions are implemented: --------------------------- PThreads --------------------------- pthread_attr_init pthread_attr_destroy pthread_attr_getdetachstate pthread_attr_getstackaddr pthread_attr_getstacksize pthread_attr_setdetachstate pthread_attr_setstackaddr pthread_attr_setstacksize pthread_create pthread_detach pthread_equal pthread_exit pthread_join pthread_once pthread_self pthread_cancel pthread_cleanup_pop pthread_cleanup_push pthread_setcancelstate pthread_setcanceltype pthread_testcancel --------------------------- Thread Specific Data --------------------------- pthread_key_create pthread_key_delete pthread_setspecific pthread_getspecific --------------------------- Mutexes --------------------------- pthread_mutexattr_init pthread_mutexattr_destroy pthread_mutexattr_getpshared pthread_mutexattr_setpshared pthread_mutexattr_gettype pthread_mutexattr_settype (types: PTHREAD_MUTEX_DEFAULT PTHREAD_MUTEX_NORMAL PTHREAD_MUTEX_ERRORCHECK PTHREAD_MUTEX_RECURSIVE ) pthread_mutex_init pthread_mutex_destroy pthread_mutex_lock pthread_mutex_trylock pthread_mutex_unlock --------------------------- Condition Variables --------------------------- pthread_condattr_init pthread_condattr_destroy pthread_condattr_getpshared pthread_condattr_setpshared pthread_cond_init pthread_cond_destroy pthread_cond_wait pthread_cond_timedwait pthread_cond_signal pthread_cond_broadcast --------------------------- Read/Write Locks: --------------------------- pthread_rwlock_init pthread_rwlock_destroy pthread_rwlock_tryrdlock pthread_rwlock_trywrlock pthread_rwlock_rdlock pthread_rwlock_rwlock pthread_rwlock_unlock --------------------------- Semaphores --------------------------- sem_init (POSIX 1b) sem_destroy (POSIX 1b) sem_post (POSIX 1b) sem_wait (POSIX 1b) sem_trywait (POSIX 1b) sem_open (POSIX 1b - returns an error ENOSYS) sem_close (POSIX 1b - returns an error ENOSYS) sem_unlink (POSIX 1b - returns an error ENOSYS) sem_getvalue (POSIX 1b - returns an error ENOSYS) --------------------------- RealTime Scheduling --------------------------- pthread_attr_getschedparam pthread_attr_setschedparam pthread_getschedparam pthread_setschedparam pthread_getconcurrency (always returns '0' indicating system default) pthread_setconcurrency (accepts any value >= 0 but is ignored) pthread_attr_getscope (returns an error ENOSYS) pthread_attr_setscope (returns an error ENOSYS) sched_get_priority_max (POSIX 1b) sched_get_priority_min (POSIX 1b) sched_yield (POSIX 1b) --------------------------- Signals --------------------------- pthread_sigmask --------------------------- Non-portable routines (see the README.NONPORTABLE file for usage) --------------------------- pthread_getw32threadhandle_np pthread_delay_np pthread_mutexattr_getkind_np pthread_mutexattr_setkind_np (types: PTHREAD_MUTEX_FAST_NP, PTHREAD_MUTEX_ERRORCHECK_NP, PTHREAD_MUTEX_RECURSIVE_NP) pthread_win32_process_attach_np pthread_win32_process_detach_np pthread_win32_thread_attach_np pthread_win32_thread_detach_np --------------------------- Static Initializers (macros) --------------------------- PTHREAD_ONCE_INIT PTHREAD_MUTEX_INITIALIZER PTHREAD_COND_INITIALIZER PTHREAD_RWLOCK_INITIALIZER --------------------------- Thread-Safe C Runtime Library (macros) --------------------------- strtok_r asctime_r ctime_r gmtime_r localtime_r rand_r The following functions are not implemented: --------------------------- RealTime Scheduling --------------------------- pthread_attr_getinheritsched pthread_attr_getschedpolicy pthread_attr_setinheritsched pthread_attr_setschedpolicy pthread_mutex_getprioceiling pthread_mutex_setprioceiling pthread_mutex_attr_getprioceiling pthread_mutex_attr_getprotocol pthread_mutex_attr_setprioceiling pthread_mutex_attr_setprotocol --------------------------- Fork Handlers --------------------------- pthread_atfork --------------------------- Stdio --------------------------- flockfile ftrylockfile funlockfile getc_unlocked getchar_unlocked putc_unlocked putchar_unlocked --------------------------- Thread-Safe C Runtime Library --------------------------- readdir_r getgrgid_r getgrnam_r getpwuid_r getpwnam_r --------------------------- Signals --------------------------- pthread_kill sigtimedwait sigwait sigwaitinfo The library includes two non-API functions for creating cancellation points in applications and libraries: pthreadCancelableWait pthreadCancelableTimedWait Availability ------------ The prebuilt DLL, export libs (for both MSVC and Mingw32), and the header files (pthread.h, semaphore.h, sched.h) are available along with the complete source code. The source code can be found at: ftp://sources.redhat.com/pub/pthreads-win32 and as individual source code files at ftp://sources.redhat.com/pub/pthreads-win32/source The pre-built DLL, export libraries and include files can be found at: ftp://sources.redhat.com/pub/pthreads-win32/dll-latest Mailing List ------------ There is a mailing list for discussing pthreads on Win32. To join, send email to: pthreads-win32-subscribe@sourceware.cygnus.com Application Development Environments ------------------------------------ MSVC: MSVC using SEH works. Distribute pthreadVSE.dll with your application. MSVC using C++ EH works. Distribute pthreadVCE.dll with your application. Mingw32: You need gcc-2.95.2-1 modified as per pthreads-win32 FAQ answer (6), with binutils-19990818-1 and msvcrt runtime-2000-03-27. Mingw32 must use the thread-safe MSVCRT library (see the FAQ). You need to distribute the gcc.dll DLL from Mingw32 with your application (as well as pthreadGCE.dll of course). Cygwin: (http://sourceware.cygnus.com/cygwin/) Cygwin aims to provide a complete POSIX environment on top of Win32, including threads. When this is complete, developers using Cygwin will not need pthreads-win32. At this time, Cygwin has preliminary support for multithreaded development, however, this is not turned on by default. We have not tested pthreads-win32 against Cygwin. UWIN: UWIN is a complete Unix-like environment for Windows from AT&T. Pthreads-win32 doesn't currently support UWIN (and vice versa), but that may change in the future. Generally: For convenience, the following pre-built files are available on the FTP site (see Availability above): pthread.h - for POSIX 1c threads semaphore.h - for POSIX 1b semaphores sched.h - for POSIX 1b scheduling pthreadVCE.dll - built with MSVC++ compiler using C++ EH pthreadVCE.lib pthreadVSE.dll - built with MSVC compiler using SEH pthreadVSE.lib pthreadGCE.dll - built with Mingw32 G++ 2.95.2-1 libpthreadw32.a - derived from pthreadGCE.dll These are the only files you need in order to build POSIX threads applications for Win32 using either MSVC or Mingw32. See the FAQ file in the source tree for additional information. Building the library with MSVC from source ------------------------------------------ A simple makefile for building the library with MSVC is available. Just run nmake in a command shell in the pthreads source directory for targets to make either the VSE or VCE version of the library. Eg: cd \pthreads nmake clean VSE or nmake clean VCE There are currently no nmake targets to make statically linked versions of the library. Building the library with MinGW32 from source --------------------------------------------- Run make in the pthreads source directory. Ie: cd \pthreads make clean make The GNU make utility will find the GNUmakefile in the pthreads source directory. Documentation ------------- Currently, there is no documentation included in the package apart from the copious comments in the source code. For POSIX Thread API programming, several reference books are available: Programming with POSIX Threads David R. Butenhof Addison-Wesley (pub) Pthreads Programming By Bradford Nichols, Dick Buttlar & Jacqueline Proulx Farrell O'Reilly (pub) Acknowledgements ---------------- This library is based substantially on a Win32 pthreads implementation contributed by John Bossom . The implementation of condition variables is derived from the work of Douglas Schmidt et al (http://www.cs.wustl.edu/~schmidt/win32-cv-1.html). There is also a separate CONTRIBUTORS file. This file and others are on the web site: http://sources.redhat.com/pthreads-win32 Enjoy! Ross Johnson