From bb2b1e98aaa1d48662b3a7b8332dd2032991ddfc Mon Sep 17 00:00:00 2001 From: rpj Date: Sun, 27 Feb 2011 00:21:52 +0000 Subject: Comments --- ChangeLog | 23 + README.NONPORTABLE | 1084 +++++++++++++++++++++++++++++++------------ pthread_attr_setstackaddr.c | 194 ++++---- pthread_self.c | 279 +++++------ 4 files changed, 1045 insertions(+), 535 deletions(-) diff --git a/ChangeLog b/ChangeLog index 73cb399..3dc192a 100644 --- a/ChangeLog +++ b/ChangeLog @@ -1,3 +1,26 @@ +2011-02-27 Ross Johnson + + * sched_setscheduler: Ensure the handle is closed after use. + * sched_getscheduler: Likewise. + +2011-02-13 Ross Johnson + + * pthread_self: Add comment re returning 'nil' value to + indicate failure only to win32 threads that call us. + * pthread_attr_setstackaddr: Fix comments; note this + function and it's compliment are now removed from SUSv4. + +2011-02-12 Ross Johnson + + README.NONPORTABLE: Record a description of an obvious + method for nulling/comparing/hashing pthread_t using a + union; plus and investigation of a change of type for + pthread_t (to a union) to neutralise any padding bits and + bytes if they occur in pthread_t (the current pthread_t struct + does not contain padding AFAIK, but porting the library to a + future architecture may introduce them). Padding affects + byte-by-byte copies and compare operations. + 2010-11-16 Ross Johnson * ChangeLog: Add this entry ;-) diff --git a/README.NONPORTABLE b/README.NONPORTABLE index 12095ce..85195e1 100644 --- a/README.NONPORTABLE +++ b/README.NONPORTABLE @@ -1,300 +1,784 @@ -This file documents non-portable functions and other issues. - -Non-portable functions included in pthreads-win32 -------------------------------------------------- - -BOOL -pthread_win32_test_features_np(int mask) - - This routine allows an application to check which - run-time auto-detected features are available within - the library. - - The possible features are: - - PTW32_SYSTEM_INTERLOCKED_COMPARE_EXCHANGE - Return TRUE if the native version of - InterlockedCompareExchange() is being used. - PTW32_ALERTABLE_ASYNC_CANCEL - Return TRUE is the QueueUserAPCEx package - QUSEREX.DLL is available and the AlertDrv.sys - driver is loaded into Windows, providing - alertable (pre-emptive) asyncronous threads - cancelation. If this feature returns FALSE - then the default async cancel scheme is in - use, which cannot cancel blocked threads. - - Features may be Or'ed into the mask parameter, in which case - the routine returns TRUE if any of the Or'ed features would - return TRUE. At this stage it doesn't make sense to Or features - but it may some day. - - -void * -pthread_timechange_handler_np(void *) - - To improve tolerance against operator or time service - initiated system clock changes. - - This routine can be called by an application when it - receives a WM_TIMECHANGE message from the system. At - present it broadcasts all condition variables so that - waiting threads can wake up and re-evaluate their - conditions and restart their timed waits if required. - - It has the same return type and argument type as a - thread routine so that it may be called directly - through pthread_create(), i.e. as a separate thread. - - Parameters - - Although a parameter must be supplied, it is ignored. - The value NULL can be used. - - Return values - - It can return an error EAGAIN to indicate that not - all condition variables were broadcast for some reason. - Otherwise, 0 is returned. - - If run as a thread, the return value is returned - through pthread_join(). - - The return value should be cast to an integer. - - -HANDLE -pthread_getw32threadhandle_np(pthread_t thread); - - Returns the win32 thread handle that the POSIX - thread "thread" is running as. - - Applications can use the win32 handle to set - win32 specific attributes of the thread. - -DWORD -pthread_getw32threadid_np (pthread_t thread) - - Returns the win32 thread ID that the POSIX - thread "thread" is running as. - - Only valid when the library is built where - ! defined (__MINGW32__) || defined (__MSVCRT__) || defined (__DMC__) - and otherwise returns 0. - - -int -pthread_mutexattr_setkind_np(pthread_mutexattr_t * attr, int kind) - -int -pthread_mutexattr_getkind_np(pthread_mutexattr_t * attr, int *kind) - - These two routines are included for Linux compatibility - and are direct equivalents to the standard routines - pthread_mutexattr_settype - pthread_mutexattr_gettype - - pthread_mutexattr_setkind_np accepts the following - mutex kinds: - PTHREAD_MUTEX_FAST_NP - PTHREAD_MUTEX_ERRORCHECK_NP - PTHREAD_MUTEX_RECURSIVE_NP - - These are really just equivalent to (respectively): - PTHREAD_MUTEX_NORMAL - PTHREAD_MUTEX_ERRORCHECK - PTHREAD_MUTEX_RECURSIVE - -int -pthread_delay_np (const struct timespec *interval); - - This routine causes a thread to delay execution for a specific period of time. - This period ends at the current time plus the specified interval. The routine - will not return before the end of the period is reached, but may return an - arbitrary amount of time after the period has gone by. This can be due to - system load, thread priorities, and system timer granularity. - - Specifying an interval of zero (0) seconds and zero (0) nanoseconds is - allowed and can be used to force the thread to give up the processor or to - deliver a pending cancelation request. - - This routine is a cancelation point. - - The timespec structure contains the following two fields: - - tv_sec is an integer number of seconds. - tv_nsec is an integer number of nanoseconds. - - Return Values - - If an error condition occurs, this routine returns an integer value - indicating the type of error. Possible return values are as follows: - - 0 Successful completion. - [EINVAL] The value specified by interval is invalid. - -int -pthread_num_processors_np (void) - - This routine (found on HPUX systems) returns the number of processors - in the system. This implementation actually returns the number of - processors available to the process, which can be a lower number - than the system's number, depending on the process's affinity mask. - -BOOL -pthread_win32_process_attach_np (void); - -BOOL -pthread_win32_process_detach_np (void); - -BOOL -pthread_win32_thread_attach_np (void); - -BOOL -pthread_win32_thread_detach_np (void); - - These functions contain the code normally run via dllMain - when the library is used as a dll but which need to be - called explicitly by an application when the library - is statically linked. As of version 2.9.0 of the library, static - builds using either MSC or GCC will call pthread_win32_process_* - automatically at application startup and exit respectively. - - Otherwise, you will need to call pthread_win32_process_attach_np() - before you can call any pthread routines when statically linking. - You should call pthread_win32_process_detach_np() before - exiting your application to clean up. - - pthread_win32_thread_attach_np() is currently a no-op, but - pthread_win32_thread_detach_np() is needed to clean up - the implicit pthread handle that is allocated to a Win32 thread if - it calls any pthreads routines. Call this routine when the - Win32 thread exits. - - Threads created through pthread_create() do not need to call - pthread_win32_thread_detach_np(). - - These functions invariably return TRUE except for - pthread_win32_process_attach_np() which will return FALSE - if pthreads-win32 initialisation fails. - -int -pthreadCancelableWait (HANDLE waitHandle); - -int -pthreadCancelableTimedWait (HANDLE waitHandle, DWORD timeout); - - These two functions provide hooks into the pthread_cancel - mechanism that will allow you to wait on a Windows handle - and make it a cancellation point. Both functions block - until either the given w32 handle is signaled, or - pthread_cancel has been called. It is implemented using - WaitForMultipleObjects on 'waitHandle' and a manually - reset w32 event used to implement pthread_cancel. - - -Non-portable issues -------------------- - -Thread priority - - POSIX defines a single contiguous range of numbers that determine a - thread's priority. Win32 defines priority classes and priority - levels relative to these classes. Classes are simply priority base - levels that the defined priority levels are relative to such that, - changing a process's priority class will change the priority of all - of it's threads, while the threads retain the same relativity to each - other. - - A Win32 system defines a single contiguous monotonic range of values - that define system priority levels, just like POSIX. However, Win32 - restricts individual threads to a subset of this range on a - per-process basis. - - The following table shows the base priority levels for combinations - of priority class and priority value in Win32. - - Process Priority Class Thread Priority Level - ----------------------------------------------------------------- - 1 IDLE_PRIORITY_CLASS THREAD_PRIORITY_IDLE - 1 BELOW_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_IDLE - 1 NORMAL_PRIORITY_CLASS THREAD_PRIORITY_IDLE - 1 ABOVE_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_IDLE - 1 HIGH_PRIORITY_CLASS THREAD_PRIORITY_IDLE - 2 IDLE_PRIORITY_CLASS THREAD_PRIORITY_LOWEST - 3 IDLE_PRIORITY_CLASS THREAD_PRIORITY_BELOW_NORMAL - 4 IDLE_PRIORITY_CLASS THREAD_PRIORITY_NORMAL - 4 BELOW_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_LOWEST - 5 IDLE_PRIORITY_CLASS THREAD_PRIORITY_ABOVE_NORMAL - 5 BELOW_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_BELOW_NORMAL - 5 Background NORMAL_PRIORITY_CLASS THREAD_PRIORITY_LOWEST - 6 IDLE_PRIORITY_CLASS THREAD_PRIORITY_HIGHEST - 6 BELOW_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_NORMAL - 6 Background NORMAL_PRIORITY_CLASS THREAD_PRIORITY_BELOW_NORMAL - 7 BELOW_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_ABOVE_NORMAL - 7 Background NORMAL_PRIORITY_CLASS THREAD_PRIORITY_NORMAL - 7 Foreground NORMAL_PRIORITY_CLASS THREAD_PRIORITY_LOWEST - 8 BELOW_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_HIGHEST - 8 NORMAL_PRIORITY_CLASS THREAD_PRIORITY_ABOVE_NORMAL - 8 Foreground NORMAL_PRIORITY_CLASS THREAD_PRIORITY_BELOW_NORMAL - 8 ABOVE_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_LOWEST - 9 NORMAL_PRIORITY_CLASS THREAD_PRIORITY_HIGHEST - 9 Foreground NORMAL_PRIORITY_CLASS THREAD_PRIORITY_NORMAL - 9 ABOVE_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_BELOW_NORMAL - 10 Foreground NORMAL_PRIORITY_CLASS THREAD_PRIORITY_ABOVE_NORMAL - 10 ABOVE_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_NORMAL - 11 Foreground NORMAL_PRIORITY_CLASS THREAD_PRIORITY_HIGHEST - 11 ABOVE_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_ABOVE_NORMAL - 11 HIGH_PRIORITY_CLASS THREAD_PRIORITY_LOWEST - 12 ABOVE_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_HIGHEST - 12 HIGH_PRIORITY_CLASS THREAD_PRIORITY_BELOW_NORMAL - 13 HIGH_PRIORITY_CLASS THREAD_PRIORITY_NORMAL - 14 HIGH_PRIORITY_CLASS THREAD_PRIORITY_ABOVE_NORMAL - 15 HIGH_PRIORITY_CLASS THREAD_PRIORITY_HIGHEST - 15 HIGH_PRIORITY_CLASS THREAD_PRIORITY_TIME_CRITICAL - 15 IDLE_PRIORITY_CLASS THREAD_PRIORITY_TIME_CRITICAL - 15 BELOW_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_TIME_CRITICAL - 15 NORMAL_PRIORITY_CLASS THREAD_PRIORITY_TIME_CRITICAL - 15 ABOVE_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_TIME_CRITICAL - 16 REALTIME_PRIORITY_CLASS THREAD_PRIORITY_IDLE - 17 REALTIME_PRIORITY_CLASS -7 - 18 REALTIME_PRIORITY_CLASS -6 - 19 REALTIME_PRIORITY_CLASS -5 - 20 REALTIME_PRIORITY_CLASS -4 - 21 REALTIME_PRIORITY_CLASS -3 - 22 REALTIME_PRIORITY_CLASS THREAD_PRIORITY_LOWEST - 23 REALTIME_PRIORITY_CLASS THREAD_PRIORITY_BELOW_NORMAL - 24 REALTIME_PRIORITY_CLASS THREAD_PRIORITY_NORMAL - 25 REALTIME_PRIORITY_CLASS THREAD_PRIORITY_ABOVE_NORMAL - 26 REALTIME_PRIORITY_CLASS THREAD_PRIORITY_HIGHEST - 27 REALTIME_PRIORITY_CLASS 3 - 28 REALTIME_PRIORITY_CLASS 4 - 29 REALTIME_PRIORITY_CLASS 5 - 30 REALTIME_PRIORITY_CLASS 6 - 31 REALTIME_PRIORITY_CLASS THREAD_PRIORITY_TIME_CRITICAL - - Windows NT: Values -7, -6, -5, -4, -3, 3, 4, 5, and 6 are not supported. - - - As you can see, the real priority levels available to any individual - Win32 thread are non-contiguous. - - An application using pthreads-win32 should not make assumptions about - the numbers used to represent thread priority levels, except that they - are monotonic between the values returned by sched_get_priority_min() - and sched_get_priority_max(). E.g. Windows 95, 98, NT, 2000, XP make - available a non-contiguous range of numbers between -15 and 15, while - at least one version of WinCE (3.0) defines the minimum priority - (THREAD_PRIORITY_LOWEST) as 5, and the maximum priority - (THREAD_PRIORITY_HIGHEST) as 1. - - Internally, pthreads-win32 maps any priority levels between - THREAD_PRIORITY_IDLE and THREAD_PRIORITY_LOWEST to THREAD_PRIORITY_LOWEST, - or between THREAD_PRIORITY_TIME_CRITICAL and THREAD_PRIORITY_HIGHEST to - THREAD_PRIORITY_HIGHEST. Currently, this also applies to - REALTIME_PRIORITY_CLASSi even if levels -7, -6, -5, -4, -3, 3, 4, 5, and 6 - are supported. - - If it wishes, a Win32 application using pthreads-win32 can use the Win32 - defined priority macros THREAD_PRIORITY_IDLE through - THREAD_PRIORITY_TIME_CRITICAL. +This file documents non-portable functions and other issues. + +Non-portable functions included in pthreads-win32 +------------------------------------------------- + +BOOL +pthread_win32_test_features_np(int mask) + + This routine allows an application to check which + run-time auto-detected features are available within + the library. + + The possible features are: + + PTW32_SYSTEM_INTERLOCKED_COMPARE_EXCHANGE + Return TRUE if the native version of + InterlockedCompareExchange() is being used. + PTW32_ALERTABLE_ASYNC_CANCEL + Return TRUE is the QueueUserAPCEx package + QUSEREX.DLL is available and the AlertDrv.sys + driver is loaded into Windows, providing + alertable (pre-emptive) asyncronous threads + cancelation. If this feature returns FALSE + then the default async cancel scheme is in + use, which cannot cancel blocked threads. + + Features may be Or'ed into the mask parameter, in which case + the routine returns TRUE if any of the Or'ed features would + return TRUE. At this stage it doesn't make sense to Or features + but it may some day. + + +void * +pthread_timechange_handler_np(void *) + + To improve tolerance against operator or time service + initiated system clock changes. + + This routine can be called by an application when it + receives a WM_TIMECHANGE message from the system. At + present it broadcasts all condition variables so that + waiting threads can wake up and re-evaluate their + conditions and restart their timed waits if required. + + It has the same return type and argument type as a + thread routine so that it may be called directly + through pthread_create(), i.e. as a separate thread. + + Parameters + + Although a parameter must be supplied, it is ignored. + The value NULL can be used. + + Return values + + It can return an error EAGAIN to indicate that not + all condition variables were broadcast for some reason. + Otherwise, 0 is returned. + + If run as a thread, the return value is returned + through pthread_join(). + + The return value should be cast to an integer. + + +HANDLE +pthread_getw32threadhandle_np(pthread_t thread); + + Returns the win32 thread handle that the POSIX + thread "thread" is running as. + + Applications can use the win32 handle to set + win32 specific attributes of the thread. + +DWORD +pthread_getw32threadid_np (pthread_t thread) + + Returns the win32 thread ID that the POSIX + thread "thread" is running as. + + Only valid when the library is built where + ! defined (__MINGW32__) || defined (__MSVCRT__) || defined (__DMC__) + and otherwise returns 0. + + +int +pthread_mutexattr_setkind_np(pthread_mutexattr_t * attr, int kind) + +int +pthread_mutexattr_getkind_np(pthread_mutexattr_t * attr, int *kind) + + These two routines are included for Linux compatibility + and are direct equivalents to the standard routines + pthread_mutexattr_settype + pthread_mutexattr_gettype + + pthread_mutexattr_setkind_np accepts the following + mutex kinds: + PTHREAD_MUTEX_FAST_NP + PTHREAD_MUTEX_ERRORCHECK_NP + PTHREAD_MUTEX_RECURSIVE_NP + + These are really just equivalent to (respectively): + PTHREAD_MUTEX_NORMAL + PTHREAD_MUTEX_ERRORCHECK + PTHREAD_MUTEX_RECURSIVE + +int +pthread_delay_np (const struct timespec *interval); + + This routine causes a thread to delay execution for a specific period of time. + This period ends at the current time plus the specified interval. The routine + will not return before the end of the period is reached, but may return an + arbitrary amount of time after the period has gone by. This can be due to + system load, thread priorities, and system timer granularity. + + Specifying an interval of zero (0) seconds and zero (0) nanoseconds is + allowed and can be used to force the thread to give up the processor or to + deliver a pending cancelation request. + + This routine is a cancelation point. + + The timespec structure contains the following two fields: + + tv_sec is an integer number of seconds. + tv_nsec is an integer number of nanoseconds. + + Return Values + + If an error condition occurs, this routine returns an integer value + indicating the type of error. Possible return values are as follows: + + 0 Successful completion. + [EINVAL] The value specified by interval is invalid. + +int +pthread_num_processors_np (void) + + This routine (found on HPUX systems) returns the number of processors + in the system. This implementation actually returns the number of + processors available to the process, which can be a lower number + than the system's number, depending on the process's affinity mask. + +BOOL +pthread_win32_process_attach_np (void); + +BOOL +pthread_win32_process_detach_np (void); + +BOOL +pthread_win32_thread_attach_np (void); + +BOOL +pthread_win32_thread_detach_np (void); + + These functions contain the code normally run via dllMain + when the library is used as a dll but which need to be + called explicitly by an application when the library + is statically linked. As of version 2.9.0 of the library, static + builds using either MSC or GCC will call pthread_win32_process_* + automatically at application startup and exit respectively. + + Otherwise, you will need to call pthread_win32_process_attach_np() + before you can call any pthread routines when statically linking. + You should call pthread_win32_process_detach_np() before + exiting your application to clean up. + + pthread_win32_thread_attach_np() is currently a no-op, but + pthread_win32_thread_detach_np() is needed to clean up + the implicit pthread handle that is allocated to a Win32 thread if + it calls any pthreads routines. Call this routine when the + Win32 thread exits. + + Threads created through pthread_create() do not need to call + pthread_win32_thread_detach_np(). + + These functions invariably return TRUE except for + pthread_win32_process_attach_np() which will return FALSE + if pthreads-win32 initialisation fails. + +int +pthreadCancelableWait (HANDLE waitHandle); + +int +pthreadCancelableTimedWait (HANDLE waitHandle, DWORD timeout); + + These two functions provide hooks into the pthread_cancel + mechanism that will allow you to wait on a Windows handle + and make it a cancellation point. Both functions block + until either the given w32 handle is signaled, or + pthread_cancel has been called. It is implemented using + WaitForMultipleObjects on 'waitHandle' and a manually + reset w32 event used to implement pthread_cancel. + + +Non-portable issues +------------------- + +Thread priority + + POSIX defines a single contiguous range of numbers that determine a + thread's priority. Win32 defines priority classes and priority + levels relative to these classes. Classes are simply priority base + levels that the defined priority levels are relative to such that, + changing a process's priority class will change the priority of all + of it's threads, while the threads retain the same relativity to each + other. + + A Win32 system defines a single contiguous monotonic range of values + that define system priority levels, just like POSIX. However, Win32 + restricts individual threads to a subset of this range on a + per-process basis. + + The following table shows the base priority levels for combinations + of priority class and priority value in Win32. + + Process Priority Class Thread Priority Level + ----------------------------------------------------------------- + 1 IDLE_PRIORITY_CLASS THREAD_PRIORITY_IDLE + 1 BELOW_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_IDLE + 1 NORMAL_PRIORITY_CLASS THREAD_PRIORITY_IDLE + 1 ABOVE_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_IDLE + 1 HIGH_PRIORITY_CLASS THREAD_PRIORITY_IDLE + 2 IDLE_PRIORITY_CLASS THREAD_PRIORITY_LOWEST + 3 IDLE_PRIORITY_CLASS THREAD_PRIORITY_BELOW_NORMAL + 4 IDLE_PRIORITY_CLASS THREAD_PRIORITY_NORMAL + 4 BELOW_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_LOWEST + 5 IDLE_PRIORITY_CLASS THREAD_PRIORITY_ABOVE_NORMAL + 5 BELOW_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_BELOW_NORMAL + 5 Background NORMAL_PRIORITY_CLASS THREAD_PRIORITY_LOWEST + 6 IDLE_PRIORITY_CLASS THREAD_PRIORITY_HIGHEST + 6 BELOW_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_NORMAL + 6 Background NORMAL_PRIORITY_CLASS THREAD_PRIORITY_BELOW_NORMAL + 7 BELOW_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_ABOVE_NORMAL + 7 Background NORMAL_PRIORITY_CLASS THREAD_PRIORITY_NORMAL + 7 Foreground NORMAL_PRIORITY_CLASS THREAD_PRIORITY_LOWEST + 8 BELOW_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_HIGHEST + 8 NORMAL_PRIORITY_CLASS THREAD_PRIORITY_ABOVE_NORMAL + 8 Foreground NORMAL_PRIORITY_CLASS THREAD_PRIORITY_BELOW_NORMAL + 8 ABOVE_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_LOWEST + 9 NORMAL_PRIORITY_CLASS THREAD_PRIORITY_HIGHEST + 9 Foreground NORMAL_PRIORITY_CLASS THREAD_PRIORITY_NORMAL + 9 ABOVE_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_BELOW_NORMAL + 10 Foreground NORMAL_PRIORITY_CLASS THREAD_PRIORITY_ABOVE_NORMAL + 10 ABOVE_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_NORMAL + 11 Foreground NORMAL_PRIORITY_CLASS THREAD_PRIORITY_HIGHEST + 11 ABOVE_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_ABOVE_NORMAL + 11 HIGH_PRIORITY_CLASS THREAD_PRIORITY_LOWEST + 12 ABOVE_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_HIGHEST + 12 HIGH_PRIORITY_CLASS THREAD_PRIORITY_BELOW_NORMAL + 13 HIGH_PRIORITY_CLASS THREAD_PRIORITY_NORMAL + 14 HIGH_PRIORITY_CLASS THREAD_PRIORITY_ABOVE_NORMAL + 15 HIGH_PRIORITY_CLASS THREAD_PRIORITY_HIGHEST + 15 HIGH_PRIORITY_CLASS THREAD_PRIORITY_TIME_CRITICAL + 15 IDLE_PRIORITY_CLASS THREAD_PRIORITY_TIME_CRITICAL + 15 BELOW_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_TIME_CRITICAL + 15 NORMAL_PRIORITY_CLASS THREAD_PRIORITY_TIME_CRITICAL + 15 ABOVE_NORMAL_PRIORITY_CLASS THREAD_PRIORITY_TIME_CRITICAL + 16 REALTIME_PRIORITY_CLASS THREAD_PRIORITY_IDLE + 17 REALTIME_PRIORITY_CLASS -7 + 18 REALTIME_PRIORITY_CLASS -6 + 19 REALTIME_PRIORITY_CLASS -5 + 20 REALTIME_PRIORITY_CLASS -4 + 21 REALTIME_PRIORITY_CLASS -3 + 22 REALTIME_PRIORITY_CLASS THREAD_PRIORITY_LOWEST + 23 REALTIME_PRIORITY_CLASS THREAD_PRIORITY_BELOW_NORMAL + 24 REALTIME_PRIORITY_CLASS THREAD_PRIORITY_NORMAL + 25 REALTIME_PRIORITY_CLASS THREAD_PRIORITY_ABOVE_NORMAL + 26 REALTIME_PRIORITY_CLASS THREAD_PRIORITY_HIGHEST + 27 REALTIME_PRIORITY_CLASS 3 + 28 REALTIME_PRIORITY_CLASS 4 + 29 REALTIME_PRIORITY_CLASS 5 + 30 REALTIME_PRIORITY_CLASS 6 + 31 REALTIME_PRIORITY_CLASS THREAD_PRIORITY_TIME_CRITICAL + + Windows NT: Values -7, -6, -5, -4, -3, 3, 4, 5, and 6 are not supported. + + + As you can see, the real priority levels available to any individual + Win32 thread are non-contiguous. + + An application using pthreads-win32 should not make assumptions about + the numbers used to represent thread priority levels, except that they + are monotonic between the values returned by sched_get_priority_min() + and sched_get_priority_max(). E.g. Windows 95, 98, NT, 2000, XP make + available a non-contiguous range of numbers between -15 and 15, while + at least one version of WinCE (3.0) defines the minimum priority + (THREAD_PRIORITY_LOWEST) as 5, and the maximum priority + (THREAD_PRIORITY_HIGHEST) as 1. + + Internally, pthreads-win32 maps any priority levels between + THREAD_PRIORITY_IDLE and THREAD_PRIORITY_LOWEST to THREAD_PRIORITY_LOWEST, + or between THREAD_PRIORITY_TIME_CRITICAL and THREAD_PRIORITY_HIGHEST to + THREAD_PRIORITY_HIGHEST. Currently, this also applies to + REALTIME_PRIORITY_CLASSi even if levels -7, -6, -5, -4, -3, 3, 4, 5, and 6 + are supported. + + If it wishes, a Win32 application using pthreads-win32 can use the Win32 + defined priority macros THREAD_PRIORITY_IDLE through + THREAD_PRIORITY_TIME_CRITICAL. + + +The opacity of the pthread_t datatype +------------------------------------- +and possible solutions for portable null/compare/hash, etc +---------------------------------------------------------- + +Because pthread_t is an opague datatype an implementation is permitted to define +pthread_t in any way it wishes. That includes defining some bits, if it is +scalar, or members, if it is an aggregate, to store information that may be +extra to the unique identifying value of the ID. As a result, pthread_t values +may not be directly comparable. + +If you want your code to be portable you must adhere to the following contraints: + +1) Don't assume it is a scalar data type, e.g. an integer or pointer value. There +are several other implementations where pthread_t is also a struct. See our FAQ +Question 11 for our reasons for defining pthread_t as a struct. + +2) You must not compare them using relational or equality operators. You must use +the API function pthread_equal() to test for equality. + +3) Never attempt to reference individual members. + + +The problem + +Certain applications would like to be able to access only the 'pure' pthread_t +id values, primarily to use as keys into data structures to manage threads or +thread-related data, but this is not possible in a maximally portable and +standards compliant way for current POSIX threads implementations. + +For implementations that define pthread_t as a scalar, programmers often employ +direct relational and equality operators on pthread_t. This code will break when +ported to an implementation that defines pthread_t as an aggregate type. + +For implementations that define pthread_t as an aggregate, e.g. a struct, +programmers can use memcmp etc., but then face the prospect that the struct may +include alignment padding bytes or bits as well as extra implementation-specific +members that are not part of the unique identifying value. + +[While this is not currently the case for pthreads-win32, opacity also +means that an implementation is free to change the definition, which should +generally only require that applications be recompiled and relinked, not +rewritten.] + + +Doesn't the compiler take care of padding? + +Answer a question with two questions: Which compiler? Which language? + +The C89 and later standards only effectively guarrantee element-by-element +equivalence following an assignment or pass by value of a struct or union, +therefore undefined areas of any two otherwise equivalent pthread_t instances +can still compare differently, e.g. attempting to compare two such pthread_t +variables byte-by-byte, e.g. memcmp(&t1, &t2, sizeof(pthread_t) may give an +incorrect result. In practice I'm reasonably confident that compilers routinely +also copy the padding bytes, mainly because assignment of unions would be far +too complicated otherwise. But it just isn't guarranteed by the standard. + +Illustration: + +We have two thread IDs t1 and t2 + +pthread_t t1, t2; + +In an application we create the threads and intend to store the thread IDs in an +ordered data structure (linked list, tree, etc) so we need to be able to compare +them in order to insert them initially and also to traverse. + +Suppose pthread_t contains undefined padding bits and our compiler copies our +pthread_t [struct] element-by-element, then for the assignment: + +pthread_t temp = t1; + +temp and t1 will be equivalent and correct but a byte-for-byte comparison such as +memcmp(&temp, &t1, sizeof(pthread_t)) == 0 may not return true as we expect because +the undefined bits may not have the same values in the two variable instances. + +Similarly if passing by value under the same conditions. + +If, on the other hand, the undefined bits are at least constant through every +assignment and pass-by-value then the byte-for-byte comparison +memcmp(&temp, &t1, sizeof(pthread_t)) == 0 will always return the expected result. +How can we force the behaviour we need? + + +Solutions + +Adding new functions to the standard API or as non-portable extentions is +the only reliable and portable way to provide the necessary operations. +Remember also that POSIX is not tied to the C language. The most common +functions that have been suggested are: + +pthread_null() +pthread_compare() +pthread_hash() + +However these are very specific and are unlikely to make it into the +standard. A signle more general purpose function can be defined as a +basis for all three of the above functions. + +But first we need to list the freedoms and constraints with restpect +to pthread_t so that we can be sure our solution is compatible with the +standard. + +What is known or may be deduced from the standard: +1) pthread_t must be able to be passed by value, so it must be a single object. +2) from (1) it must be copyable so cannot embed thread-state information, locks +or other volatile objects required to manage the thread it associates with. +3) pthread_t may carry additional information, e.g. for debugging or to manage +itself. +4) there is an implicit requirement that the size of pthread_t is determinable +at compile-time and size-invariant, because it must be able to copy the object +(i.e. through assignment and pass-by-value). Such copies must be genuine +duplicates, not merely a copy of a pointer to a common instance such as +would be the case if pthread_t were defined as an array. There is evidence that +this is or was the intention also in the rationale, where it expects that +pthread_t is hashable, and that is only possible if the application can +determine the size of pthread_t (e.g. via sizeof() in C). + + +The following candidate function is proposed + +/* This function shall return it's argument */ +pthread_t* pthread_normalize(pthread_t* thread); + +For scalar or aggregate pthread_t types this function would simply zero any bits +within the pthread_t that don't uniquely identify the thread, including padding, +such that client code can return consistent results from operations done on the +result. If the additional bits are a pointer to an associate structure then +this function would ensure that the memory used to store that associate +structure does not leak. After normalization the following compare would be +valid and repeatable: + +memcmp(pthread_normalize(&t1),pthread_normalize(&t2),sizeof(pthread_t)) + +Note 1: such comparisons are intended merely to order and sort pthread_t values +and allow them to index various data structures. They are not intended to reveal +anything about the relationships between threads, like startup order. + +Note 2: the normalized pthread_t is also a valid pthread_t that uniquely +identifies the same thread. + +Advantages: +1) In most existing implementations this function would reduce to a no-op that +emits no additional instructions, i.e after in-lining or optimisation, or if +defined as a macro: +#define pthread_normalise(tptr) tptr + +2) This single function allows an application to portably derive +application-level versions of any of the other required functions. + +3) It is a generic function that could enable unanticipated uses. + +Disadvantages: +1) Less efficient than dedicated compare or hash functions for implementations +that include significant extra non-id elements in pthread_t. + +2) Still need to be concerned about padding if copying normalized pthread_t. +See the later section on defining pthread_t to neutralise padding issues. + +Generally a pthread_t may need to be normalized every time it is used, +which could have a significant impact. However, this is a design decision +for the implementor in a competitive environment. An implementation is free +to define a pthread_t in a way that minimises or eliminates padding or +renders this function a no-op. + +Hazards: +1) Pass-by-reference directly modifies 'thread' so the application must +synchronise access or ensure that the pointer refers to a copy. The alternative +of pass-by-value/return-by-value was considered but then this requires two copy +operations, disadvantaging implementations where this function is not a no-op +in terms of speed of execution. This function is intended to be used in high +frequency situations and needs to be efficient, or at least not unnecessarily +inefficient. The alternative also sits awkwardly with functions like memcmp. + +2) [Non-compliant] code that uses relational and equality operators on +arithmetic or pointer style pthread_t types would need to be rewritten, but it +should be rewritten anyway. + + +C implementation of null/compare/hash functions using pthread_normalize(): + +/* In pthread.h */ +pthread_t* pthread_normalize(pthread_t* thread); + +/* In user code */ +/* User-level bitclear function - clear bits in loc corresponding to mask */ +void* bitclear (void* loc, void* mask, size_t count); + +typedef unsigned int hash_t; + +/* User-level hash function */ +hash_t hash(void* ptr, size_t count); + +/* + * User-level pthr_null function - modifies the origin thread handle. + * The concept of a null pthread_t is highly implementation dependent + * and this design may be far from the mark. For example, in an + * implementation "null" may mean setting a special value inside one + * element of pthread_t to mean "INVALID". However, if that value was zero and + * formed part of the id component then we may get away with this design. + */ +pthread_t* pthr_null(pthread_t* tp) +{ + /* + * This should have the same effect as memset(tp, 0, sizeof(pthread_t)) + * We're just showing that we can do it. + */ + void* p = (void*) pthread_normalize(tp); + return (pthread_t*) bitclear(p, p, sizeof(pthread_t)); +} + +/* + * Safe user-level pthr_compare function - modifies temporary thread handle copies + */ +int pthr_compare_safe(pthread_t thread1, pthread_t thread2) +{ + return memcmp(pthread_normalize(&thread1), pthread_normalize(&thread2), sizeof(pthread_t)); +} + +/* + * Fast user-level pthr_compare function - modifies origin thread handles + */ +int pthr_compare_fast(pthread_t* thread1, pthread_t* thread2) +{ + return memcmp(pthread_normalize(&thread1), pthread_normalize(&thread2), sizeof(pthread_t)); +} + +/* + * Safe user-level pthr_hash function - modifies temporary thread handle copy + */ +hash_t pthr_hash_safe(pthread_t thread) +{ + return hash((void *) pthread_normalize(&thread), sizeof(pthread_t)); +} + +/* + * Fast user-level pthr_hash function - modifies origin thread handle + */ +hash_t pthr_hash_fast(pthread_t thread) +{ + return hash((void *) pthread_normalize(&thread), sizeof(pthread_t)); +} + +/* User-level bitclear function - modifies the origin array */ +void* bitclear(void* loc, void* mask, size_t count) +{ + int i; + for (i=0; i < count; i++) { + (unsigned char) *loc++ &= ~((unsigned char) *mask++); + } +} + +/* Donald Knuth hash */ +hash_t hash(void* str, size_t count) +{ + hash_t hash = (hash_t) count; + unsigned int i = 0; + + for(i = 0; i < len; str++, i++) + { + hash = ((hash << 5) ^ (hash >> 27)) ^ (*str); + } + return hash; +} + +/* Example of advantage point (3) - split a thread handle into its id and non-id values */ +pthread_t id = thread, non-id = thread; +bitclear((void*) &non-id, (void*) pthread_normalize(&id), sizeof(pthread_t)); + + +A pthread_t type change proposal to neutralise the effects of padding + +Even if pthread_nornalize() is available, padding is still a problem because +the standard only garrantees element-by-element equivalence through +copy operations (assignment and pass-by-value). So padding bit values can +still change randomly after calls to pthread_normalize(). + +[I suspect that most compilers take the easy path and always byte-copy anyway, +partly because it becomes too complex to do (e.g. unions that contain sub-aggregates) +but also because programmers can easily design their aggregates to minimise and +often eliminate padding]. + +How can we eliminate the problem of padding bytes in structs? Could +defining pthread_t as a union rather than a struct provide a solution? + +In fact, the Linux pthread.h defines most of it's pthread_*_t objects (but not +pthread_t itself) as unions, possibly for this and/or other reasons. We'll +borrow some element naming from there but the ideas themselves are well known +- the __align element used to force alignment of the union comes from K&R's +storage allocator example. + +/* Essentially our current pthread_t renamed */ +typedef struct { + struct thread_state_t * __p; + long __x; /* sequence counter */ +} thread_id_t; + +Ensuring that the last element in the above struct is a long ensures that the +overall struct size is a multiple of sizeof(long), so there should be no trailing +padding in this struct or the union we define below. +(Later we'll see that we can handle internal but not trailing padding.) + +/* New pthread_t */ +typedef union { + char __size[sizeof(thread_id_t)]; /* array as the first element */ + thread_id_t __tid; + long __align; /* Ensure that the union starts on long boundary */ +} pthread_t; + +This guarrantees that, during an assignment or pass-by-value, the compiler copies +every byte in our thread_id_t because the compiler guarrantees that the __size +array, which we have ensured is the equal-largest element in the union, retains +equivalence. + +This means that pthread_t values stored, assigned and passed by value will at least +carry the value of any undefined padding bytes along and therefore ensure that +those values remain consistent. Our comparisons will return consistent results and +our hashes of [zero initialised] pthread_t values will also return consistent +results. + +We have also removed the need for a pthread_null() function; we can initialise +at declaration time or easily create our own const pthread_t to use in assignments +later: + +const pthread_t null_tid = {0}; /* braces are required */ + +pthread_t t; +... +t = null_tid; + + +Note that we don't have to explicitly make use of the __size array at all. It's +there just to alter the semantics of the compiler. + + +Partial solutions without a pthread_normalize function + + +An application-level pthread_null and pthread_compare proposal +(and pthread_hash proposal by extention) + +In order to deal with the problem of scalar/aggregate pthread_t type disparity in +portable code I suggest using an old-fashioned union, e.g.: + +Contraints: +- there is no padding, or padding values are preserved through assignment and + pass-by-value (see above); +- there are no extra non-id values in the pthread_t. + + +Example 1: A null initialiser for pthread_t variables... + +typedef union { + unsigned char b[sizeof(pthread_t)]; + pthread_t t; +} init_t; + +const init_t initial = {0}; + +pthread_t tid = initial.t; /* init tid to all zeroes */ + + +Example 2: A comparison function for pthread_t values + +typedef union { + unsigned char b[sizeof(pthread_t)]; + pthread_t t; +} pthcmp_t; + +int pthcmp(pthread_t left, pthread_t right) +{ + /* + * Compare two pthread handles in a way that imposes a repeatable but arbitrary + * ordering on them. + * I.e. given the same set of pthread_t handles the ordering should be the same + * each time but the order has no particular meaning other than that. E.g. + * the ordering does not imply the thread start sequence, or any other + * relationship between threads. + * + * Return values are: + * 1 : left is greater than right + * 0 : left is equal to right + * -1 : left is less than right + */ + int i; + pthcmp_t L, R; + L.t = left; + R.t = right; + for (i = 0; i < sizeof(pthread_t); i++) + { + if (L.b[i] > R.b[i]) + return 1; + else if (L.b[i] < R.b[i]) + return -1; + } + return 0; +} + +It has been pointed out that the C99 standard allows for the possibility that +integer types also may include padding bits, which could invalidate the above +method. This addition to C99 was specifically included after it was pointed +out that there was one, presumably not particularly well known, architecture +that included a padding bit in it's 32 bit integer type. See section 6.2.6.2 +of both the standard and the rationale, specifically the paragraph starting at +line 16 on page 43 of the rationale. + + +An aside + +Certain compilers, e.g. gcc and one of the IBM compilers, include a feature +extention: provided the union contains a member of the same type as the +object then the object may be cast to the union itself. + +We could use this feature to speed up the pthrcmp() function from example 2 +above by casting rather than assigning the pthread_t arguments to the union, e.g.: + +int pthcmp(pthread_t left, pthread_t right) +{ + /* + * Compare two pthread handles in a way that imposes a repeatable but arbitrary + * ordering on them. + * I.e. given the same set of pthread_t handles the ordering should be the same + * each time but the order has no particular meaning other than that. E.g. + * the ordering does not imply the thread start sequence, or any other + * relationship between threads. + * + * Return values are: + * 1 : left is greater than right + * 0 : left is equal to right + * -1 : left is less than right + */ + int i; + for (i = 0; i < sizeof(pthread_t); i++) + { + if (((pthcmp_t)left).b[i] > ((pthcmp_t)right).b[i]) + return 1; + else if (((pthcmp_t)left).b[i] < ((pthcmp_t)right).b[i]) + return -1; + } + return 0; +} + + +Result thus far + +We can't remove undefined bits if they are there in pthread_t already, but we have +attempted to render them inert for comparison and hashing functions by making them +consistent through assignment, copy and pass-by-value. + +Note: Hashing pthread_t values requires that all pthread_t variables be initialised +to the same value (usually all zeros) before being assigned a proper thread ID, i.e. +to ensure that any padding bits are zero, or at least the same value for all +pthread_t. Since all pthread_t values are generated by the library in the first +instance this need not be an application-level operation. + + +Conclusion + +I've attempted to resolve the multiple issues of type opacity and the possible +presence of undefined bits and bytes in pthread_t values, which prevent +applications from comparing or hashing pthread handles. + +Two complimentary partial solutions have been proposed, one an application-level +scheme to handle both scalar and aggregate pthread_t types equally, plus a +definition of pthread_t itself that neutralises padding bits and bytes by +coercing semantics out of the compiler to eliminate variations in the values of +padding bits. + +I have not provided any solution to the problem of handling extra values embedded +in pthread_t, e.g. debugging or trap information that an implementation is entitled +to include. Therefore none of this replaces the portability and flexibility of API +functions but what functions are needed? The threads standard is unlikely to +include that can be implemented by a combination of existing features and more +generic functions (several references in the threads rationale suggest this. +Therefore I propose that the following function could replace the several functions +that have been suggested in conversations: + +pthread_t * pthread_normalize(pthread_t * handle); + +For most existing pthreads implementations this function, or macro, would reduce to +a no-op with zero call overhead. diff --git a/pthread_attr_setstackaddr.c b/pthread_attr_setstackaddr.c index 96a8320..32e338d 100644 --- a/pthread_attr_setstackaddr.c +++ b/pthread_attr_setstackaddr.c @@ -1,97 +1,97 @@ -/* - * pthread_attr_setstackaddr.c - * - * Description: - * This translation unit implements operations on thread attribute objects. - * - * -------------------------------------------------------------------------- - * - * Pthreads-win32 - POSIX Threads Library for Win32 - * Copyright(C) 1998 John E. Bossom - * Copyright(C) 1999,2005 Pthreads-win32 contributors - * - * Contact Email: rpj@callisto.canberra.edu.au - * - * The current list of contributors is contained - * in the file CONTRIBUTORS included with the source - * code distribution. The list can also be seen at the - * following World Wide Web location: - * http://sources.redhat.com/pthreads-win32/contributors.html - * - * This library is free software; you can redistribute it and/or - * modify it under the terms of the GNU Lesser General Public - * License as published by the Free Software Foundation; either - * version 2 of the License, or (at your option) any later version. - * - * This library is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU - * Lesser General Public License for more details. - * - * You should have received a copy of the GNU Lesser General Public - * License along with this library in the file COPYING.LIB; - * if not, write to the Free Software Foundation, Inc., - * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA - */ - -#include "pthread.h" -#include "implement.h" - - -int -pthread_attr_setstackaddr (pthread_attr_t * attr, void *stackaddr) - /* - * ------------------------------------------------------ - * DOCPUBLIC - * Threads created with 'attr' will run on the stack - * starting at 'stackaddr'. - * Stack must be at least PTHREAD_STACK_MIN bytes. - * - * PARAMETERS - * attr - * pointer to an instance of pthread_attr_t - * - * stacksize - * stack size, in bytes. - * - * - * DESCRIPTION - * Threads created with 'attr' will run on the stack - * starting at 'stackaddr'. - * Stack must be at least PTHREAD_STACK_MIN bytes. - * - * NOTES: - * 1) Function supported only if this macro is - * defined: - * - * _POSIX_THREAD_ATTR_STACKADDR - * - * 2) Create only one thread for each stack - * address.. - * - * 3) Ensure that stackaddr is aligned. - * - * RESULTS - * 0 successfully set stack address, - * EINVAL 'attr' is invalid - * ENOSYS function not supported - * - * ------------------------------------------------------ - */ -{ -#if defined( _POSIX_THREAD_ATTR_STACKADDR ) - - if (ptw32_is_attr (attr) != 0) - { - return EINVAL; - } - - (*attr)->stackaddr = stackaddr; - return 0; - -#else - - return ENOSYS; - -#endif /* _POSIX_THREAD_ATTR_STACKADDR */ -} +/* + * pthread_attr_setstackaddr.c + * + * Description: + * This translation unit implements operations on thread attribute objects. + * + * -------------------------------------------------------------------------- + * + * Pthreads-win32 - POSIX Threads Library for Win32 + * Copyright(C) 1998 John E. Bossom + * Copyright(C) 1999,2005 Pthreads-win32 contributors + * + * Contact Email: rpj@callisto.canberra.edu.au + * + * The current list of contributors is contained + * in the file CONTRIBUTORS included with the source + * code distribution. The list can also be seen at the + * following World Wide Web location: + * http://sources.redhat.com/pthreads-win32/contributors.html + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; either + * version 2 of the License, or (at your option) any later version. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library in the file COPYING.LIB; + * if not, write to the Free Software Foundation, Inc., + * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA + */ + +#include "pthread.h" +#include "implement.h" + + +int +pthread_attr_setstackaddr (pthread_attr_t * attr, void *stackaddr) + /* + * ------------------------------------------------------ + * DOCPUBLIC + * Threads created with 'attr' will run on the stack + * starting at 'stackaddr'. + * Stack must be at least PTHREAD_STACK_MIN bytes. + * + * PARAMETERS + * attr + * pointer to an instance of pthread_attr_t + * + * stackaddr + * the address of the stack to use + * + * + * DESCRIPTION + * Threads created with 'attr' will run on the stack + * starting at 'stackaddr'. + * Stack must be at least PTHREAD_STACK_MIN bytes. + * + * NOTES: + * 1) Function supported only if this macro is + * defined: + * + * _POSIX_THREAD_ATTR_STACKADDR + * + * 2) Create only one thread for each stack + * address.. + * + * 3) Ensure that stackaddr is aligned. + * + * RESULTS + * 0 successfully set stack address, + * EINVAL 'attr' is invalid + * ENOSYS function not supported + * + * ------------------------------------------------------ + */ +{ +#if defined( _POSIX_THREAD_ATTR_STACKADDR ) + + if (ptw32_is_attr (attr) != 0) + { + return EINVAL; + } + + (*attr)->stackaddr = stackaddr; + return 0; + +#else + + return ENOSYS; + +#endif /* _POSIX_THREAD_ATTR_STACKADDR */ +} diff --git a/pthread_self.c b/pthread_self.c index d72a097..0cd943a 100644 --- a/pthread_self.c +++ b/pthread_self.c @@ -1,138 +1,141 @@ -/* - * pthread_self.c - * - * Description: - * This translation unit implements miscellaneous thread functions. - * - * -------------------------------------------------------------------------- - * - * Pthreads-win32 - POSIX Threads Library for Win32 - * Copyright(C) 1998 John E. Bossom - * Copyright(C) 1999,2005 Pthreads-win32 contributors - * - * Contact Email: rpj@callisto.canberra.edu.au - * - * The current list of contributors is contained - * in the file CONTRIBUTORS included with the source - * code distribution. The list can also be seen at the - * following World Wide Web location: - * http://sources.redhat.com/pthreads-win32/contributors.html - * - * This library is free software; you can redistribute it and/or - * modify it under the terms of the GNU Lesser General Public - * License as published by the Free Software Foundation; either - * version 2 of the License, or (at your option) any later version. - * - * This library is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU - * Lesser General Public License for more details. - * - * You should have received a copy of the GNU Lesser General Public - * License along with this library in the file COPYING.LIB; - * if not, write to the Free Software Foundation, Inc., - * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA - */ - -#include "pthread.h" -#include "implement.h" - -pthread_t -pthread_self (void) - /* - * ------------------------------------------------------ - * DOCPUBLIC - * This function returns a reference to the current running - * thread. - * - * PARAMETERS - * N/A - * - * - * DESCRIPTION - * This function returns a reference to the current running - * thread. - * - * RESULTS - * pthread_t reference to the current thread - * - * ------------------------------------------------------ - */ -{ - pthread_t self; - pthread_t nil = {NULL, 0}; - ptw32_thread_t * sp; - -#ifdef _UWIN - if (!ptw32_selfThreadKey) - return nil; -#endif - - sp = (ptw32_thread_t *) pthread_getspecific (ptw32_selfThreadKey); - - if (sp != NULL) - { - self = sp->ptHandle; - } - else - { - /* - * Need to create an implicit 'self' for the currently - * executing thread. - */ - self = ptw32_new (); - sp = (ptw32_thread_t *) self.p; - - if (sp != NULL) - { - /* - * This is a non-POSIX thread which has chosen to call - * a POSIX threads function for some reason. We assume that - * it isn't joinable, but we do assume that it's - * (deferred) cancelable. - */ - sp->implicit = 1; - sp->detachState = PTHREAD_CREATE_DETACHED; - sp->thread = GetCurrentThreadId (); - -#ifdef NEED_DUPLICATEHANDLE - /* - * DuplicateHandle does not exist on WinCE. - * - * NOTE: - * GetCurrentThread only returns a pseudo-handle - * which is only valid in the current thread context. - * Therefore, you should not pass the handle to - * other threads for whatever purpose. - */ - sp->threadH = GetCurrentThread (); -#else - if (!DuplicateHandle (GetCurrentProcess (), - GetCurrentThread (), - GetCurrentProcess (), - &sp->threadH, - 0, FALSE, DUPLICATE_SAME_ACCESS)) - { - /* - * Should not do this, but we have no alternative if - * we can't get a Win32 thread handle. - * Thread structs are never freed. - */ - ptw32_threadReusePush (self); - return nil; - } -#endif - - /* - * No need to explicitly serialise access to sched_priority - * because the new handle is not yet public. - */ - sp->sched_priority = GetThreadPriority (sp->threadH); - - pthread_setspecific (ptw32_selfThreadKey, (void *) sp); - } - } - - return (self); - -} /* pthread_self */ +/* + * pthread_self.c + * + * Description: + * This translation unit implements miscellaneous thread functions. + * + * -------------------------------------------------------------------------- + * + * Pthreads-win32 - POSIX Threads Library for Win32 + * Copyright(C) 1998 John E. Bossom + * Copyright(C) 1999,2005 Pthreads-win32 contributors + * + * Contact Email: rpj@callisto.canberra.edu.au + * + * The current list of contributors is contained + * in the file CONTRIBUTORS included with the source + * code distribution. The list can also be seen at the + * following World Wide Web location: + * http://sources.redhat.com/pthreads-win32/contributors.html + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; either + * version 2 of the License, or (at your option) any later version. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library in the file COPYING.LIB; + * if not, write to the Free Software Foundation, Inc., + * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA + */ + +#include "pthread.h" +#include "implement.h" + +pthread_t +pthread_self (void) + /* + * ------------------------------------------------------ + * DOCPUBLIC + * This function returns a reference to the current running + * thread. + * + * PARAMETERS + * N/A + * + * + * DESCRIPTION + * This function returns a reference to the current running + * thread. + * + * RESULTS + * pthread_t reference to the current thread + * + * ------------------------------------------------------ + */ +{ + pthread_t self; + pthread_t nil = {NULL, 0}; + ptw32_thread_t * sp; + +#ifdef _UWIN + if (!ptw32_selfThreadKey) + return nil; +#endif + + sp = (ptw32_thread_t *) pthread_getspecific (ptw32_selfThreadKey); + + if (sp != NULL) + { + self = sp->ptHandle; + } + else + { + /* + * Need to create an implicit 'self' for the currently + * executing thread. + */ + self = ptw32_new (); + sp = (ptw32_thread_t *) self.p; + + if (sp != NULL) + { + /* + * This is a non-POSIX thread which has chosen to call + * a POSIX threads function for some reason. We assume that + * it isn't joinable, but we do assume that it's + * (deferred) cancelable. + */ + sp->implicit = 1; + sp->detachState = PTHREAD_CREATE_DETACHED; + sp->thread = GetCurrentThreadId (); + +#ifdef NEED_DUPLICATEHANDLE + /* + * DuplicateHandle does not exist on WinCE. + * + * NOTE: + * GetCurrentThread only returns a pseudo-handle + * which is only valid in the current thread context. + * Therefore, you should not pass the handle to + * other threads for whatever purpose. + */ + sp->threadH = GetCurrentThread (); +#else + if (!DuplicateHandle (GetCurrentProcess (), + GetCurrentThread (), + GetCurrentProcess (), + &sp->threadH, + 0, FALSE, DUPLICATE_SAME_ACCESS)) + { + /* + * Should not do this, but we have no alternative if + * we can't get a Win32 thread handle. + * Thread structs are never freed. + */ + ptw32_threadReusePush (self); + /* + * As this is a win32 thread calling us and we have failed, + * return a value that makes sense to win32. + */ + return nil; + } +#endif + + /* + * No need to explicitly serialise access to sched_priority + * because the new handle is not yet public. + */ + sp->sched_priority = GetThreadPriority (sp->threadH); + pthread_setspecific (ptw32_selfThreadKey, (void *) sp); + } + } + + return (self); + +} /* pthread_self */ -- cgit v1.2.3