boost/boost/config/platform/vxworks.hpp - nest-cam/4320010/boost - Git at Google

 //  (C) Copyright Dustin Spicuzza 2009.
 //      Adapted to vxWorks 6.9 by Peter Brockamp 2012.
 //  Use, modification and distribution are subject to the
 //  Boost Software License, Version 1.0. (See accompanying file
 //  LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)

 //  See http://www.boost.org for most recent version.

 //  Since WRS does not yet properly support boost under vxWorks
 //  and this file was badly outdated, but I was keen on using it,
 //  I patched boost myself to make things work. This has been tested
 //  and adapted by me for vxWorks 6.9 *only*, as I'm lacking access
 //  to earlier 6.X versions! The only thing I know for sure is that
 //  very old versions of vxWorks (namely everything below 6.x) are
 //  absolutely unable to use boost. This is mainly due to the completely
 //  outdated libraries and ancient compiler (GCC 2.96 or worse). Do
 //  not even think of getting this to work, a miserable failure will
 //  be guaranteed!
 //  Equally, this file has been tested for RTPs (Real Time Processes)
 //  only, not for DKMs (Downloadable Kernel Modules). These two types
 //  of executables differ largely in the available functionality of
 //  the C-library, STL, and so on. A DKM uses a library similar to those
 //  of vxWorks 5.X - with all its limitations and incompatibilities
 //  with respect to ANSI C++ and STL. So probably there might be problems
 //  with the usage of boost from DKMs. WRS or any voluteers are free to
 //  prove the opposite!

 // ====================================================================
 //
 // Some important information regarding the usage of POSIX semaphores:
 // -------------------------------------------------------------------
 //
 // VxWorks as a real time operating system handles threads somewhat
 // different from what "normal" OSes do, regarding their scheduling!
 // This could lead to a scenario called "priority inversion" when using
 // semaphores, see http://en.wikipedia.org/wiki/Priority_inversion.
 //
 // Now, VxWorks POSIX-semaphores for DKM's default to the usage of
 // priority inverting semaphores, which is fine. On the other hand,
 // for RTP's it defaults to using non priority inverting semaphores,
 // which could easily pose a serious problem for a real time process,
 // i.e. deadlocks! To overcome this two possibilities do exist:
 //
 // a) Patch every piece of boost that uses semaphores to instanciate
 //    the proper type of semaphores. This is non-intrusive with respect
 //    to the OS and could relatively easy been done by giving all
 //    semaphores attributes deviating from the default (for in-depth
 //    information see the POSIX functions pthread_mutexattr_init()
 //    and pthread_mutexattr_setprotocol()). However this breaks all
 //    too easily, as with every new version some boost library could
 //    all in a sudden start using semaphores, resurrecting the very
 //    same, hard to locate problem over and over again!
 //
 // b) We could change the default properties for POSIX-semaphores
 //    that VxWorks uses for RTP's and this is being suggested here,
 //    as it will more or less seamlessly integrate with boost. I got
 //    the following information from WRS how to do this, compare
 //    Wind River TSR# 1209768:
 //
 // Instructions for changing the default properties of POSIX-
 // semaphores for RTP's in VxWorks 6.9:
 // - Edit the file /vxworks-6.9/target/usr/src/posix/pthreadLib.c
 //   in the root of your Workbench-installation.
 // - Around line 917 there should be the definition of the default
 //   mutex attributes:
 //
 //   LOCAL pthread_mutexattr_t defaultMutexAttr =
 //       {
 //       PTHREAD_INITIALIZED_OBJ, PTHREAD_PRIO_NONE, 0,
 //       PTHREAD_MUTEX_DEFAULT
 //       };
 //
 //   Here, replace PTHREAD_PRIO_NONE by PTHREAD_PRIO_INHERIT.
 // - Around line 1236 there should be a definition for the function
 //   pthread_mutexattr_init(). A couple of lines below you should
 //   find a block of code like this:
 //
 //   pAttr->mutexAttrStatus      = PTHREAD_INITIALIZED_OBJ;
 //   pAttr->mutexAttrProtocol    = PTHREAD_PRIO_NONE;
 //   pAttr->mutexAttrPrioceiling = 0;
 //   pAttr->mutexAttrType        = PTHREAD_MUTEX_DEFAULT;
 //
 //   Here again, replace PTHREAD_PRIO_NONE by PTHREAD_PRIO_INHERIT.
 // - Finally, rebuild your VSB. This will create a new VxWorks kernel
 //   with the changed properties. That's it! Now, using boost should
 //   no longer cause any problems with task deadlocks!
 //
 // And here's another useful piece of information concerning VxWorks'
 // POSIX-functionality in general:
 // VxWorks is not a genuine POSIX-OS in itself, rather it is using a
 // kind of compatibility layer (sort of a wrapper) to emulate the
 // POSIX-functionality by using its own resources and functions.
 // At the time a task (thread) calls it's first POSIX-function during
 // runtime it is being transformed by the OS into a POSIX-thread.
 // This transformation does include a call to malloc() to allocate the
 // memory required for the housekeeping of POSIX-threads. In a high
 // priority RTP this malloc() call may be highly undesirable, as its
 // timing is more or less unpredictable (depending on what your actual
 // heap looks like). You can circumvent this problem by calling the
 // function thread_self() at a well defined point in the code of the
 // task, e.g. shortly after the task spawns up. Thereby you are able
 // to define the time when the task-transformation will take place and
 // you could shift it to an uncritical point where a malloc() call is
 // tolerable. So, if this could pose a problem for your code, remember
 // to call thread_self() from the affected task at an early stage.
 //
 // ====================================================================

 // Block out all versions before vxWorks 6.x, as these don't work:
 // Include header with the vxWorks version information and query them
 #include <version.h>
 #if !defined(_WRS_VXWORKS_MAJOR) || (_WRS_VXWORKS_MAJOR < 6)
 #  error "The vxWorks version you're using is so badly outdated,\
           it doesn't work at all with boost, sorry, no chance!"
 #endif

 // Handle versions above 5.X but below 6.9
 #if (_WRS_VXWORKS_MAJOR == 6) && (_WRS_VXWORKS_MINOR < 9)
 // TODO: Starting from what version does vxWorks work with boost?
 // We can't reasonably insert a #warning "" as a user hint here,
 // as this will show up with every file including some boost header,
 // badly bugging the user... So for the time being we just leave it.
 #endif

 // vxWorks specific config options:
 // --------------------------------
 #define BOOST_PLATFORM "vxWorks"

 // Special behaviour for DKMs:
 #ifdef _WRS_KERNEL
   // DKMs do not have the <cwchar>-header,
   // but apparently they do have an intrinsic wchar_t meanwhile!
 #  define BOOST_NO_CWCHAR

   // Lots of wide-functions and -headers are unavailable for DKMs as well:
 #  define BOOST_NO_CWCTYPE
 #  define BOOST_NO_SWPRINTF
 #  define BOOST_NO_STD_WSTRING
 #  define BOOST_NO_STD_WSTREAMBUF
 #endif

 // Generally available headers:
 #define BOOST_HAS_UNISTD_H
 #define BOOST_HAS_STDINT_H
 #define BOOST_HAS_DIRENT_H
 #define BOOST_HAS_SLIST

 // vxWorks does not have installed an iconv-library by default,
 // so unfortunately no Unicode support from scratch is available!
 // Thus, instead it is suggested to switch to ICU, as this seems
 // to be the most complete and portable option...
 #define BOOST_LOCALE_WITH_ICU

 // Generally available functionality:
 #define BOOST_HAS_THREADS
 #define BOOST_HAS_NANOSLEEP
 #define BOOST_HAS_GETTIMEOFDAY
 #define BOOST_HAS_CLOCK_GETTIME
 #define BOOST_HAS_MACRO_USE_FACET

 // Generally unavailable functionality, delivered by boost's test function:
 //#define BOOST_NO_DEDUCED_TYPENAME // Commented this out, boost's test gives an errorneous result!
 #define BOOST_NO_CXX11_EXTERN_TEMPLATE
 #define BOOST_NO_CXX11_VARIADIC_MACROS

 // Generally available threading API's:
 #define BOOST_HAS_PTHREADS
 #define BOOST_HAS_SCHED_YIELD
 #define BOOST_HAS_SIGACTION

 // Functionality available for RTPs only:
 #ifdef __RTP__
 #  define BOOST_HAS_PTHREAD_MUTEXATTR_SETTYPE
 #  define BOOST_HAS_LOG1P
 #  define BOOST_HAS_EXPM1
 #endif

 // Functionality available for DKMs only:
 #ifdef _WRS_KERNEL
   // Luckily, at the moment there seems to be none!
 #endif

 // These #defines allow posix_features to work, since vxWorks doesn't
 // #define them itself for DKMs (for RTPs on the contrary it does):
 #ifdef _WRS_KERNEL
 #  ifndef _POSIX_TIMERS
 #    define _POSIX_TIMERS  1
 #  endif
 #  ifndef _POSIX_THREADS
 #    define _POSIX_THREADS 1
 #  endif
 #endif

 // vxWorks doesn't work with asio serial ports:
 #define BOOST_ASIO_DISABLE_SERIAL_PORT
 // TODO: The problem here seems to bee that vxWorks uses its own, very specific
 //       ways to handle serial ports, incompatible with POSIX or anything...
 //       Maybe a specific implementation would be possible, but until the
 //       straight need arises... This implementation would presumably consist
 //       of some vxWorks specific ioctl-calls, etc. Any voluteers?

 // vxWorks-around: <time.h> #defines CLOCKS_PER_SEC as sysClkRateGet() but
 //                 miserably fails to #include the required <sysLib.h> to make
 //                 sysClkRateGet() available! So we manually include it here.
 #ifdef __RTP__
 #  include <time.h>
 #  include <sysLib.h>
 #endif

 // vxWorks-around: In <stdint.h> the macros INT32_C(), UINT32_C(), INT64_C() and
 //                 UINT64_C() are defined errorneously, yielding not a signed/
 //                 unsigned long/long long type, but a signed/unsigned int/long
 //                 type. Eventually this leads to compile errors in ratio_fwd.hpp,
 //                 when trying to define several constants which do not fit into a
 //                 long type! We correct them here by redefining.
 #include <cstdint>

 // Some macro-magic to do the job
 #define VX_JOIN(X, Y)     VX_DO_JOIN(X, Y)
 #define VX_DO_JOIN(X, Y)  VX_DO_JOIN2(X, Y)
 #define VX_DO_JOIN2(X, Y) X##Y

 // Correctly setup the macros
 #undef  INT32_C
 #undef  UINT32_C
 #undef  INT64_C
 #undef  UINT64_C
 #define INT32_C(x)  VX_JOIN(x, L)
 #define UINT32_C(x) VX_JOIN(x, UL)
 #define INT64_C(x)  VX_JOIN(x, LL)
 #define UINT64_C(x) VX_JOIN(x, ULL)

 // #include Libraries required for the following function adaption
 #include <ioLib.h>
 #include <tickLib.h>
 #include <sys/time.h>

 // Use C-linkage for the following helper functions
 extern "C" {

 // vxWorks-around: The required functions getrlimit() and getrlimit() are missing.
 //                 But we have the similar functions getprlimit() and setprlimit(),
 //                 which may serve the purpose.
 //                 Problem: The vxWorks-documentation regarding these functions
 //                 doesn't deserve its name! It isn't documented what the first two
 //                 parameters idtype and id mean, so we must fall back to an educated
 //                 guess - null, argh... :-/

 // TODO: getprlimit() and setprlimit() do exist for RTPs only, for whatever reason.
 //       Thus for DKMs there would have to be another implementation.
 #ifdef __RTP__
   inline int getrlimit(int resource, struct rlimit *rlp){
     return getprlimit(0, 0, resource, rlp);
   }

   inline int setrlimit(int resource, const struct rlimit *rlp){
     return setprlimit(0, 0, resource, const_cast<struct rlimit*>(rlp));
   }
 #endif

 // vxWorks has ftruncate() only, so we do simulate truncate():
 inline int truncate(const char *p, off_t l){
   int fd = open(p, O_WRONLY);
   if (fd == -1){
     errno = EACCES;
     return -1;
   }
   if (ftruncate(fd, l) == -1){
     close(fd);
     errno = EACCES;
     return -1;
   }
   return close(fd);
 }

 // Fake symlink handling by dummy functions:
 inline int symlink(const char*, const char*){
   // vxWorks has no symlinks -> always return an error!
   errno = EACCES;
   return -1;
 }

 inline ssize_t readlink(const char*, char*, size_t){
   // vxWorks has no symlinks -> always return an error!
   errno = EACCES;
   return -1;
 }

 // vxWorks claims to implement gettimeofday in sys/time.h
 // but nevertheless does not provide it! See
 // https://support.windriver.com/olsPortal/faces/maintenance/techtipDetail_noHeader.jspx?docId=16442&contentId=WR_TECHTIP_006256
 // We implement a surrogate version here via clock_gettime:
 inline int gettimeofday(struct timeval *tv, void * /*tzv*/) {
   struct timespec ts;
   clock_gettime(CLOCK_MONOTONIC, &ts);
   tv->tv_sec  = ts.tv_sec;
   tv->tv_usec = ts.tv_nsec / 1000;
   return 0;
 }

 // vxWorks does provide neither struct tms nor function times()!
 // We implement an empty dummy-function, simply setting the user
 // and system time to the half of thew actual system ticks-value
 // and the child user and system time to 0.
 // Rather ugly but at least it suppresses compiler errors...
 // Unfortunately, this of course *does* have an severe impact on
 // dependant libraries, actually this is chrono only! Here it will
 // not be possible to correctly use user and system times! But
 // as vxWorks is lacking the ability to calculate user and system
 // process times there seems to be no other possible solution.
 struct tms{
   clock_t tms_utime;  // User CPU time
   clock_t tms_stime;  // System CPU time
   clock_t tms_cutime; // User CPU time of terminated child processes
   clock_t tms_cstime; // System CPU time of terminated child processes
 };

 inline clock_t times(struct tms *t){
   struct timespec ts;
   clock_gettime(CLOCK_THREAD_CPUTIME_ID, &ts);
   clock_t ticks(static_cast<clock_t>(static_cast<double>(ts.tv_sec)  * CLOCKS_PER_SEC +
                                      static_cast<double>(ts.tv_nsec) * CLOCKS_PER_SEC / 1000000.0));
   t->tms_utime  = ticks/2U;
   t->tms_stime  = ticks/2U;
   t->tms_cutime = 0; // vxWorks is lacking the concept of a child process!
   t->tms_cstime = 0; // -> Set the wait times for childs to 0
   return ticks;
 }

 } // extern "C"

 // Put the selfmade functions into the std-namespace, just in case
 namespace std {
 # ifdef __RTP__
     using ::getrlimit;
     using ::setrlimit;
 # endif
   using ::truncate;
   using ::symlink;
   using ::readlink;
   using ::times;
   using ::gettimeofday;
 }

 // Some more macro-magic:
 // vxWorks-around: Some functions are not present or broken in vxWorks
 //                 but may be patched to life via helper macros...

 // Include signal.h which might contain a typo to be corrected here
 #include <signal.h>

 #define getpagesize()    sysconf(_SC_PAGESIZE)         // getpagesize is deprecated anyway!
 #ifndef S_ISSOCK
 #  define S_ISSOCK(mode) ((mode & S_IFMT) == S_IFSOCK) // Is file a socket?
 #endif
 #define lstat(p, b)      stat(p, b)                    // lstat() == stat(), as vxWorks has no symlinks!
 #ifndef FPE_FLTINV
 #  define FPE_FLTINV     (FPE_FLTSUB+1)                // vxWorks has no FPE_FLTINV, so define one as a dummy
 #endif
 #if !defined(BUS_ADRALN) && defined(BUS_ADRALNR)
 #  define BUS_ADRALN     BUS_ADRALNR                   // Correct a supposed typo in vxWorks' <signal.h>
 #endif
 //typedef int              locale_t;                     // locale_t is a POSIX-extension, currently unpresent in vxWorks!

 // #include boilerplate code:
 #include <boost/config/posix_features.hpp>

 // vxWorks lies about XSI conformance, there is no nl_types.h:
 #undef BOOST_HAS_NL_TYPES_H
	// (C) Copyright Dustin Spicuzza 2009.
	// Adapted to vxWorks 6.9 by Peter Brockamp 2012.
	// Use, modification and distribution are subject to the
	// Boost Software License, Version 1.0. (See accompanying file
	// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)

	// See http://www.boost.org for most recent version.

	// Since WRS does not yet properly support boost under vxWorks
	// and this file was badly outdated, but I was keen on using it,
	// I patched boost myself to make things work. This has been tested
	// and adapted by me for vxWorks 6.9 only, as I'm lacking access
	// to earlier 6.X versions! The only thing I know for sure is that
	// very old versions of vxWorks (namely everything below 6.x) are
	// absolutely unable to use boost. This is mainly due to the completely
	// outdated libraries and ancient compiler (GCC 2.96 or worse). Do
	// not even think of getting this to work, a miserable failure will
	// be guaranteed!
	// Equally, this file has been tested for RTPs (Real Time Processes)
	// only, not for DKMs (Downloadable Kernel Modules). These two types
	// of executables differ largely in the available functionality of
	// the C-library, STL, and so on. A DKM uses a library similar to those
	// of vxWorks 5.X - with all its limitations and incompatibilities
	// with respect to ANSI C++ and STL. So probably there might be problems
	// with the usage of boost from DKMs. WRS or any voluteers are free to
	// prove the opposite!

	// ====================================================================
	//
	// Some important information regarding the usage of POSIX semaphores:
	// -------------------------------------------------------------------
	//
	// VxWorks as a real time operating system handles threads somewhat
	// different from what "normal" OSes do, regarding their scheduling!
	// This could lead to a scenario called "priority inversion" when using
	// semaphores, see http://en.wikipedia.org/wiki/Priority_inversion.
	//
	// Now, VxWorks POSIX-semaphores for DKM's default to the usage of
	// priority inverting semaphores, which is fine. On the other hand,
	// for RTP's it defaults to using non priority inverting semaphores,
	// which could easily pose a serious problem for a real time process,
	// i.e. deadlocks! To overcome this two possibilities do exist:
	//
	// a) Patch every piece of boost that uses semaphores to instanciate
	// the proper type of semaphores. This is non-intrusive with respect
	// to the OS and could relatively easy been done by giving all
	// semaphores attributes deviating from the default (for in-depth
	// information see the POSIX functions pthread_mutexattr_init()
	// and pthread_mutexattr_setprotocol()). However this breaks all
	// too easily, as with every new version some boost library could
	// all in a sudden start using semaphores, resurrecting the very
	// same, hard to locate problem over and over again!
	//
	// b) We could change the default properties for POSIX-semaphores
	// that VxWorks uses for RTP's and this is being suggested here,
	// as it will more or less seamlessly integrate with boost. I got
	// the following information from WRS how to do this, compare
	// Wind River TSR# 1209768:
	//
	// Instructions for changing the default properties of POSIX-
	// semaphores for RTP's in VxWorks 6.9:
	// - Edit the file /vxworks-6.9/target/usr/src/posix/pthreadLib.c
	// in the root of your Workbench-installation.
	// - Around line 917 there should be the definition of the default
	// mutex attributes:
	//
	// LOCAL pthread_mutexattr_t defaultMutexAttr =
	// {
	// PTHREAD_INITIALIZED_OBJ, PTHREAD_PRIO_NONE, 0,
	// PTHREAD_MUTEX_DEFAULT
	// };
	//
	// Here, replace PTHREAD_PRIO_NONE by PTHREAD_PRIO_INHERIT.
	// - Around line 1236 there should be a definition for the function
	// pthread_mutexattr_init(). A couple of lines below you should
	// find a block of code like this:
	//
	// pAttr->mutexAttrStatus = PTHREAD_INITIALIZED_OBJ;
	// pAttr->mutexAttrProtocol = PTHREAD_PRIO_NONE;
	// pAttr->mutexAttrPrioceiling = 0;
	// pAttr->mutexAttrType = PTHREAD_MUTEX_DEFAULT;
	//
	// Here again, replace PTHREAD_PRIO_NONE by PTHREAD_PRIO_INHERIT.
	// - Finally, rebuild your VSB. This will create a new VxWorks kernel
	// with the changed properties. That's it! Now, using boost should
	// no longer cause any problems with task deadlocks!
	//
	// And here's another useful piece of information concerning VxWorks'
	// POSIX-functionality in general:
	// VxWorks is not a genuine POSIX-OS in itself, rather it is using a
	// kind of compatibility layer (sort of a wrapper) to emulate the
	// POSIX-functionality by using its own resources and functions.
	// At the time a task (thread) calls it's first POSIX-function during
	// runtime it is being transformed by the OS into a POSIX-thread.
	// This transformation does include a call to malloc() to allocate the
	// memory required for the housekeeping of POSIX-threads. In a high
	// priority RTP this malloc() call may be highly undesirable, as its
	// timing is more or less unpredictable (depending on what your actual
	// heap looks like). You can circumvent this problem by calling the
	// function thread_self() at a well defined point in the code of the
	// task, e.g. shortly after the task spawns up. Thereby you are able
	// to define the time when the task-transformation will take place and
	// you could shift it to an uncritical point where a malloc() call is
	// tolerable. So, if this could pose a problem for your code, remember
	// to call thread_self() from the affected task at an early stage.
	//
	// ====================================================================

	// Block out all versions before vxWorks 6.x, as these don't work:
	// Include header with the vxWorks version information and query them
	#include <version.h>
	#if !defined(_WRS_VXWORKS_MAJOR) \|\| (_WRS_VXWORKS_MAJOR < 6)
	# error "The vxWorks version you're using is so badly outdated,\
	it doesn't work at all with boost, sorry, no chance!"
	#endif

	// Handle versions above 5.X but below 6.9
	#if (_WRS_VXWORKS_MAJOR == 6) && (_WRS_VXWORKS_MINOR < 9)
	// TODO: Starting from what version does vxWorks work with boost?
	// We can't reasonably insert a #warning "" as a user hint here,
	// as this will show up with every file including some boost header,
	// badly bugging the user... So for the time being we just leave it.
	#endif

	// vxWorks specific config options:
	// --------------------------------
	#define BOOST_PLATFORM "vxWorks"

	// Special behaviour for DKMs:
	#ifdef _WRS_KERNEL
	// DKMs do not have the <cwchar>-header,
	// but apparently they do have an intrinsic wchar_t meanwhile!
	# define BOOST_NO_CWCHAR

	// Lots of wide-functions and -headers are unavailable for DKMs as well:
	# define BOOST_NO_CWCTYPE
	# define BOOST_NO_SWPRINTF
	# define BOOST_NO_STD_WSTRING
	# define BOOST_NO_STD_WSTREAMBUF
	#endif

	// Generally available headers:
	#define BOOST_HAS_UNISTD_H
	#define BOOST_HAS_STDINT_H
	#define BOOST_HAS_DIRENT_H
	#define BOOST_HAS_SLIST

	// vxWorks does not have installed an iconv-library by default,
	// so unfortunately no Unicode support from scratch is available!
	// Thus, instead it is suggested to switch to ICU, as this seems
	// to be the most complete and portable option...
	#define BOOST_LOCALE_WITH_ICU

	// Generally available functionality:
	#define BOOST_HAS_THREADS
	#define BOOST_HAS_NANOSLEEP
	#define BOOST_HAS_GETTIMEOFDAY
	#define BOOST_HAS_CLOCK_GETTIME
	#define BOOST_HAS_MACRO_USE_FACET

	// Generally unavailable functionality, delivered by boost's test function:
	//#define BOOST_NO_DEDUCED_TYPENAME // Commented this out, boost's test gives an errorneous result!
	#define BOOST_NO_CXX11_EXTERN_TEMPLATE
	#define BOOST_NO_CXX11_VARIADIC_MACROS

	// Generally available threading API's:
	#define BOOST_HAS_PTHREADS
	#define BOOST_HAS_SCHED_YIELD
	#define BOOST_HAS_SIGACTION

	// Functionality available for RTPs only:
	#ifdef __RTP__
	# define BOOST_HAS_PTHREAD_MUTEXATTR_SETTYPE
	# define BOOST_HAS_LOG1P
	# define BOOST_HAS_EXPM1
	#endif

	// Functionality available for DKMs only:
	#ifdef _WRS_KERNEL
	// Luckily, at the moment there seems to be none!
	#endif

	// These #defines allow posix_features to work, since vxWorks doesn't
	// #define them itself for DKMs (for RTPs on the contrary it does):
	#ifdef _WRS_KERNEL
	# ifndef _POSIX_TIMERS
	# define _POSIX_TIMERS 1
	# endif
	# ifndef _POSIX_THREADS
	# define _POSIX_THREADS 1
	# endif
	#endif

	// vxWorks doesn't work with asio serial ports:
	#define BOOST_ASIO_DISABLE_SERIAL_PORT
	// TODO: The problem here seems to bee that vxWorks uses its own, very specific
	// ways to handle serial ports, incompatible with POSIX or anything...
	// Maybe a specific implementation would be possible, but until the
	// straight need arises... This implementation would presumably consist
	// of some vxWorks specific ioctl-calls, etc. Any voluteers?

	// vxWorks-around: <time.h> #defines CLOCKS_PER_SEC as sysClkRateGet() but
	// miserably fails to #include the required <sysLib.h> to make
	// sysClkRateGet() available! So we manually include it here.
	#ifdef __RTP__
	# include <time.h>
	# include <sysLib.h>
	#endif

	// vxWorks-around: In <stdint.h> the macros INT32_C(), UINT32_C(), INT64_C() and
	// UINT64_C() are defined errorneously, yielding not a signed/
	// unsigned long/long long type, but a signed/unsigned int/long
	// type. Eventually this leads to compile errors in ratio_fwd.hpp,
	// when trying to define several constants which do not fit into a
	// long type! We correct them here by redefining.
	#include <cstdint>

	// Some macro-magic to do the job
	#define VX_JOIN(X, Y) VX_DO_JOIN(X, Y)
	#define VX_DO_JOIN(X, Y) VX_DO_JOIN2(X, Y)
	#define VX_DO_JOIN2(X, Y) X##Y

	// Correctly setup the macros
	#undef INT32_C
	#undef UINT32_C
	#undef INT64_C
	#undef UINT64_C
	#define INT32_C(x) VX_JOIN(x, L)
	#define UINT32_C(x) VX_JOIN(x, UL)
	#define INT64_C(x) VX_JOIN(x, LL)
	#define UINT64_C(x) VX_JOIN(x, ULL)

	// #include Libraries required for the following function adaption
	#include <ioLib.h>
	#include <tickLib.h>
	#include <sys/time.h>

	// Use C-linkage for the following helper functions
	extern "C" {

	// vxWorks-around: The required functions getrlimit() and getrlimit() are missing.
	// But we have the similar functions getprlimit() and setprlimit(),
	// which may serve the purpose.
	// Problem: The vxWorks-documentation regarding these functions
	// doesn't deserve its name! It isn't documented what the first two
	// parameters idtype and id mean, so we must fall back to an educated
	// guess - null, argh... :-/

	// TODO: getprlimit() and setprlimit() do exist for RTPs only, for whatever reason.
	// Thus for DKMs there would have to be another implementation.
	#ifdef __RTP__
	inline int getrlimit(int resource, struct rlimit *rlp){
	return getprlimit(0, 0, resource, rlp);
	}

	inline int setrlimit(int resource, const struct rlimit *rlp){
	return setprlimit(0, 0, resource, const_cast<struct rlimit*>(rlp));
	}
	#endif

	// vxWorks has ftruncate() only, so we do simulate truncate():
	inline int truncate(const char *p, off_t l){
	int fd = open(p, O_WRONLY);
	if (fd == -1){
	errno = EACCES;
	return -1;
	}
	if (ftruncate(fd, l) == -1){
	close(fd);
	errno = EACCES;
	return -1;
	}
	return close(fd);
	}

	// Fake symlink handling by dummy functions:
	inline int symlink(const char, const char){
	// vxWorks has no symlinks -> always return an error!
	errno = EACCES;
	return -1;
	}

	inline ssize_t readlink(const char, char, size_t){
	// vxWorks has no symlinks -> always return an error!
	errno = EACCES;
	return -1;
	}

	// vxWorks claims to implement gettimeofday in sys/time.h
	// but nevertheless does not provide it! See
	// https://support.windriver.com/olsPortal/faces/maintenance/techtipDetail_noHeader.jspx?docId=16442&contentId=WR_TECHTIP_006256
	// We implement a surrogate version here via clock_gettime:
	inline int gettimeofday(struct timeval tv, void /tzv/) {
	struct timespec ts;
	clock_gettime(CLOCK_MONOTONIC, &ts);
	tv->tv_sec = ts.tv_sec;
	tv->tv_usec = ts.tv_nsec / 1000;
	return 0;
	}

	// vxWorks does provide neither struct tms nor function times()!
	// We implement an empty dummy-function, simply setting the user
	// and system time to the half of thew actual system ticks-value
	// and the child user and system time to 0.
	// Rather ugly but at least it suppresses compiler errors...
	// Unfortunately, this of course does have an severe impact on
	// dependant libraries, actually this is chrono only! Here it will
	// not be possible to correctly use user and system times! But
	// as vxWorks is lacking the ability to calculate user and system
	// process times there seems to be no other possible solution.
	struct tms{
	clock_t tms_utime; // User CPU time
	clock_t tms_stime; // System CPU time
	clock_t tms_cutime; // User CPU time of terminated child processes
	clock_t tms_cstime; // System CPU time of terminated child processes
	};

	inline clock_t times(struct tms *t){
	struct timespec ts;
	clock_gettime(CLOCK_THREAD_CPUTIME_ID, &ts);
	clock_t ticks(static_cast<clock_t>(static_cast<double>(ts.tv_sec) * CLOCKS_PER_SEC +
	static_cast<double>(ts.tv_nsec) * CLOCKS_PER_SEC / 1000000.0));
	t->tms_utime = ticks/2U;
	t->tms_stime = ticks/2U;
	t->tms_cutime = 0; // vxWorks is lacking the concept of a child process!
	t->tms_cstime = 0; // -> Set the wait times for childs to 0
	return ticks;
	}

	} // extern "C"

	// Put the selfmade functions into the std-namespace, just in case
	namespace std {
	# ifdef __RTP__
	using ::getrlimit;
	using ::setrlimit;
	# endif
	using ::truncate;
	using ::symlink;
	using ::readlink;
	using ::times;
	using ::gettimeofday;
	}

	// Some more macro-magic:
	// vxWorks-around: Some functions are not present or broken in vxWorks
	// but may be patched to life via helper macros...

	// Include signal.h which might contain a typo to be corrected here
	#include <signal.h>

	#define getpagesize() sysconf(_SC_PAGESIZE) // getpagesize is deprecated anyway!
	#ifndef S_ISSOCK
	# define S_ISSOCK(mode) ((mode & S_IFMT) == S_IFSOCK) // Is file a socket?
	#endif
	#define lstat(p, b) stat(p, b) // lstat() == stat(), as vxWorks has no symlinks!
	#ifndef FPE_FLTINV
	# define FPE_FLTINV (FPE_FLTSUB+1) // vxWorks has no FPE_FLTINV, so define one as a dummy
	#endif
	#if !defined(BUS_ADRALN) && defined(BUS_ADRALNR)
	# define BUS_ADRALN BUS_ADRALNR // Correct a supposed typo in vxWorks' <signal.h>
	#endif
	//typedef int locale_t; // locale_t is a POSIX-extension, currently unpresent in vxWorks!

	// #include boilerplate code:
	#include <boost/config/posix_features.hpp>

	// vxWorks lies about XSI conformance, there is no nl_types.h:
	#undef BOOST_HAS_NL_TYPES_H