/* * Copyright (C) 2002-2015 Paul Davis * Copyright (C) 2007-2009 David Robillard * Copyright (C) 2015-2018 Robin Gareus * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include #include #include #if !defined PLATFORM_WINDOWS && defined __GLIBC__ #include #include #endif #include "pbd/compose.h" #include "pbd/debug.h" #include "pbd/failed_constructor.h" #include "pbd/pthread_utils.h" #ifdef COMPILER_MSVC DECLARE_DEFAULT_COMPARISONS (pthread_t) // Needed for 'DECLARE_DEFAULT_COMPARISONS'. Objects in an STL container can be // searched and sorted. Thus, when instantiating the container, MSVC complains // if the type of object being contained has no appropriate comparison operators // defined (specifically, if operators '<' and '==' are undefined). This seems // to be the case with ptw32 'pthread_t' which is a simple struct. #endif #ifdef __APPLE__ #include #include #include #endif using namespace std; typedef std::map ThreadMap; static ThreadMap all_threads; static pthread_mutex_t thread_map_lock = PTHREAD_MUTEX_INITIALIZER; static Glib::Threads::Private thread_name (free); namespace PBD { PBD::Signal3 ThreadCreatedWithRequestSize; } using namespace PBD; void PBD::notify_event_loops_about_thread_creation (pthread_t thread, const std::string& emitting_thread_name, int request_count) { /* notify threads that may exist in the future (they may also exist * already, in which case they will catch the * ThreadCreatedWithRequestSize signal) */ EventLoop::pre_register (emitting_thread_name, request_count); /* notify all existing threads */ ThreadCreatedWithRequestSize (thread, emitting_thread_name, request_count); } static size_t pbd_stack_size () { size_t rv = 0; #if !defined PLATFORM_WINDOWS && defined __GLIBC__ size_t pt_min_stack = 16384; #ifdef PTHREAD_STACK_MIN pt_min_stack = PTHREAD_STACK_MIN; #endif void* handle = dlopen (NULL, RTLD_LAZY); /* This function is internal (it has a GLIBC_PRIVATE) version, but * available via weak symbol, or dlsym, and returns * * GLRO(dl_pagesize) + __static_tls_size + PTHREAD_STACK_MIN */ size_t (*__pthread_get_minstack) (const pthread_attr_t* attr) = (size_t (*) (const pthread_attr_t*))dlsym (handle, "__pthread_get_minstack"); if (__pthread_get_minstack != NULL) { pthread_attr_t attr; pthread_attr_init (&attr); rv = __pthread_get_minstack (&attr); assert (rv >= pt_min_stack); rv -= pt_min_stack; pthread_attr_destroy (&attr); } dlclose (handle); #endif return rv; } struct ThreadStartWithName { void* (*thread_work) (void*); void* arg; std::string name; ThreadStartWithName (void* (*f) (void*), void* a, const std::string& s) : thread_work (f) , arg (a) , name (s) {} }; static void* fake_thread_start (void* arg) { ThreadStartWithName* ts = (ThreadStartWithName*)arg; void* (*thread_work) (void*) = ts->thread_work; void* thread_arg = ts->arg; /* name will be deleted by the default handler for GStaticPrivate, when the thread exits */ pthread_set_name (ts->name.c_str ()); DEBUG_TRACE (PBD::DEBUG::Threads, string_compose ("Started: '%1'\n", ts->name)); /* we don't need this object anymore */ delete ts; /* actually run the thread's work function */ void* ret = thread_work (thread_arg); /* cleanup */ pthread_mutex_lock (&thread_map_lock); for (auto const& t : all_threads) { if (pthread_equal (t.first, pthread_self ())) { DEBUG_TRACE (PBD::DEBUG::Threads, string_compose ("Terminated: '%1'\n", t.second)); all_threads.erase (t.first); break; } } pthread_mutex_unlock (&thread_map_lock); /* done */ return ret; } int pthread_create_and_store (string name, pthread_t* thread, void* (*start_routine) (void*), void* arg, uint32_t stacklimit) { pthread_attr_t default_attr; int ret; /* set default stack size to sensible default for memlocking */ pthread_attr_init (&default_attr); if (stacklimit > 0) { pthread_attr_setstacksize (&default_attr, stacklimit + pbd_stack_size ()); } ThreadStartWithName* ts = new ThreadStartWithName (start_routine, arg, name); if ((ret = pthread_create (thread, &default_attr, fake_thread_start, ts)) == 0) { pthread_mutex_lock (&thread_map_lock); all_threads[*thread] = name; pthread_mutex_unlock (&thread_map_lock); } pthread_attr_destroy (&default_attr); return ret; } void pthread_set_name (const char* str) { /* copy string and delete it when exiting */ thread_name.set (strdup (str)); // leaks #if !defined PTW32_VERSION && defined _GNU_SOURCE /* set public thread name, up to 16 chars */ char ptn[16]; memset (ptn, 0, 16); strncpy (ptn, str, 15); pthread_setname_np (pthread_self (), ptn); #endif } const char* pthread_name () { const char* str = thread_name.get (); if (str) { return str; } return "unknown"; } void pthread_kill_all (int signum) { pthread_mutex_lock (&thread_map_lock); for (auto const& t : all_threads) { if (pthread_equal (t.first, pthread_self ())) { continue; } DEBUG_TRACE (PBD::DEBUG::Threads, string_compose ("Kill: '%1'\n", t.second)); pthread_kill (t.first, signum); } all_threads.clear (); pthread_mutex_unlock (&thread_map_lock); } void pthread_cancel_all () { pthread_mutex_lock (&thread_map_lock); for (auto const& t : all_threads) { if (pthread_equal (t.first, pthread_self ())) { continue; } DEBUG_TRACE (PBD::DEBUG::Threads, string_compose ("Cancel: '%1'\n", t.second)); pthread_cancel (t.first); } all_threads.clear (); pthread_mutex_unlock (&thread_map_lock); } void pthread_cancel_one (pthread_t thread) { pthread_mutex_lock (&thread_map_lock); for (auto const& t : all_threads) { if (pthread_equal (t.first, thread)) { all_threads.erase (t.first); break; } } pthread_cancel (thread); pthread_mutex_unlock (&thread_map_lock); } int pbd_pthread_create ( const size_t stacksize, pthread_t* thread, void* (*start_routine) (void*), void* arg) { int rv; pthread_attr_t attr; pthread_attr_init (&attr); if (stacksize > 0) { pthread_attr_setstacksize (&attr, stacksize + pbd_stack_size ()); } DEBUG_TRACE (PBD::DEBUG::Threads, string_compose ("Start Non-RT Thread stacksize = 0x%1%2\n", std::hex, stacksize)); rv = pthread_create (thread, &attr, start_routine, arg); pthread_attr_destroy (&attr); return rv; } int pbd_pthread_priority (PBDThreadClass which) { /* fall back to use values relative to max */ #ifdef PLATFORM_WINDOWS switch (which) { case THREAD_MAIN: return -1; case THREAD_MIDI: return -2; default: case THREAD_PROC: return -2; case THREAD_IO: /* https://github.com/mingw-w64/mingw-w64/blob/master/mingw-w64-libraries/winpthreads/src/sched.c * -> THREAD_PRIORITY_HIGHEST */ return -13; } #else int base = -20; const char* p = getenv ("ARDOUR_SCHED_PRI"); if (p && *p) { base = atoi (p); if (base > -5 && base < 5) { base = -20; } } switch (which) { case THREAD_MAIN: return base; case THREAD_MIDI: return base - 1; default: case THREAD_PROC: return base - 2; case THREAD_IO: return base - 10; } #endif } int pbd_absolute_rt_priority (int policy, int priority) { /* POSIX requires a spread of at least 32 steps between min..max */ const int p_min = sched_get_priority_min (policy); // Linux: 1 const int p_max = sched_get_priority_max (policy); // Linux: 99 if (priority == 0) { assert (0); priority = (p_min + p_max) / 2; } else if (priority > 0) { /* value relative to minium */ priority += p_min - 1; } else { /* value relative maximum */ priority += p_max + 1; } if (priority > p_max) { priority = p_max; } if (priority < p_min) { priority = p_min; } return priority; } int pbd_realtime_pthread_create ( const int policy, int priority, const size_t stacksize, pthread_t* thread, void* (*start_routine) (void*), void* arg) { int rv; pthread_attr_t attr; struct sched_param parm; parm.sched_priority = pbd_absolute_rt_priority (policy, priority); pthread_attr_init (&attr); pthread_attr_setschedpolicy (&attr, policy); pthread_attr_setschedparam (&attr, &parm); pthread_attr_setscope (&attr, PTHREAD_SCOPE_SYSTEM); pthread_attr_setinheritsched (&attr, PTHREAD_EXPLICIT_SCHED); if (stacksize > 0) { pthread_attr_setstacksize (&attr, stacksize + pbd_stack_size ()); } DEBUG_TRACE (PBD::DEBUG::Threads, string_compose ("Start Realtime Thread policy = %1 priority = %2 stacksize = 0x%3%4\n", policy, priority, std::hex, stacksize)); rv = pthread_create (thread, &attr, start_routine, arg); pthread_attr_destroy (&attr); return rv; } int pbd_set_thread_priority (pthread_t thread, const int policy, int priority) { struct sched_param param; memset (¶m, 0, sizeof (param)); param.sched_priority = pbd_absolute_rt_priority (policy, priority); return pthread_setschedparam (thread, SCHED_FIFO, ¶m); } bool pbd_mach_set_realtime_policy (pthread_t thread_id, double period_ns, bool main) { #ifdef __APPLE__ /* https://opensource.apple.com/source/xnu/xnu-4570.61.1/osfmk/mach/thread_policy.h.auto.html * https://opensource.apple.com/source/xnu/xnu-4570.61.1/:sposfmk/kern/sched.h.auto.html */ kern_return_t res; /* Ask for fixed priority */ thread_extended_policy_data_t tep; tep.timeshare = false; res = thread_policy_set (pthread_mach_thread_np (thread_id), THREAD_EXTENDED_POLICY, (thread_policy_t)&tep, THREAD_EXTENDED_POLICY_COUNT); #ifndef NDEBUG printf ("Mach Thread(%p) set timeshare: %d OK: %d\n", thread_id, tep.timeshare, res == KERN_SUCCESS); #endif /* relative value of the computation compared to the other threads in the task. */ thread_precedence_policy_data_t tpp; tpp.importance = main ? 63 : 62; // MAXPRI_USER = 63 res = thread_policy_set (pthread_mach_thread_np (thread_id), THREAD_PRECEDENCE_POLICY, (thread_policy_t)&tpp, THREAD_PRECEDENCE_POLICY_COUNT); #ifndef NDEBUG printf ("Mach Thread(%p) set precedence: %d OK: %d\n", thread_id, tpp.importance, res == KERN_SUCCESS); #endif /* Realtime constraints */ double ticks_per_ns = 1.; mach_timebase_info_data_t timebase; if (KERN_SUCCESS == mach_timebase_info (&timebase)) { ticks_per_ns = (double)timebase.denom / (double)timebase.numer; } thread_time_constraint_policy_data_t tcp; #ifndef NDEBUG mach_msg_type_number_t msgt = 4; boolean_t dflt = false; kern_return_t rv = thread_policy_get (pthread_mach_thread_np (thread_id), THREAD_TIME_CONSTRAINT_POLICY, (thread_policy_t)&tcp, &msgt, &dflt); printf ("Mach Thread(%p) get: period=%d comp=%d constraint=%d preemt=%d OK: %d\n", thread_id, tcp.period, tcp.computation, tcp.constraint, tcp.preemptible, rv == KERN_SUCCESS); #endif const double period_clk = period_ns * ticks_per_ns; tcp.period = period_clk; tcp.computation = period_clk * .9; tcp.constraint = period_clk * .95; tcp.preemptible = true; #ifndef NDEBUG printf ("period_ns=%f period_clk=%f timebase.num=%d timebase_den=%d ticks_per_ns=%f\n", period_ns, period_clk, timebase.numer, timebase.denom, ticks_per_ns); printf ("Mach Thread(%p) request: period=%d comp=%d constraint=%d preemt=%d\n", thread_id, tcp.period, tcp.computation, tcp.constraint, tcp.preemptible); #endif res = thread_policy_set (pthread_mach_thread_np (thread_id), THREAD_TIME_CONSTRAINT_POLICY, (thread_policy_t)&tcp, THREAD_TIME_CONSTRAINT_POLICY_COUNT); #ifndef NDEBUG printf ("Mach Thread(%p) set: period=%d comp=%d constraint=%d preemt=%d OK: %d\n", thread_id, tcp.period, tcp.computation, tcp.constraint, tcp.preemptible, res == KERN_SUCCESS); #endif return res != KERN_SUCCESS; #endif return false; // OK } PBD::Thread* PBD::Thread::create (boost::function const& slot, std::string const& name) { try { return new PBD::Thread (slot, name); } catch (...) { return 0; } } PBD::Thread* PBD::Thread::self () { return new PBD::Thread (); } PBD::Thread::Thread () : _name ("Main") , _joinable (false) { _t = pthread_self (); } PBD::Thread::Thread (boost::function const& slot, std::string const& name) : _name (name) , _slot (slot) , _joinable (true) { pthread_attr_t thread_attributes; pthread_attr_init (&thread_attributes); if (pthread_create (&_t, &thread_attributes, _run, this)) { throw failed_constructor (); } if (_joinable) { pthread_mutex_lock (&thread_map_lock); all_threads[_t] = name; pthread_mutex_unlock (&thread_map_lock); } } void* PBD::Thread::_run (void* arg) { PBD::Thread* self = static_cast(arg); if (!self->_name.empty ()) { pthread_set_name (self->_name.c_str ()); } DEBUG_TRACE (PBD::DEBUG::Threads, string_compose ("Started: '%1'\n", self->_name)); self->_slot (); /* cleanup */ pthread_mutex_lock (&thread_map_lock); for (auto const& t : all_threads) { if (pthread_equal (t.first, pthread_self ())) { DEBUG_TRACE (PBD::DEBUG::Threads, string_compose ("Terminated: '%1'\n", t.second)); all_threads.erase (t.first); break; } } pthread_mutex_unlock (&thread_map_lock); pthread_exit (0); return 0; } void PBD::Thread::join () { if (_joinable) { pthread_join (_t, NULL); } } bool PBD::Thread::caller_is_self () const { return pthread_equal (_t, pthread_self ()) != 0; }