/*-*- mode:c;indent-tabs-mode:nil;c-basic-offset:2;tab-width:8;coding:utf-8 -*-│ │ vi: set et ft=c ts=2 sts=2 sw=2 fenc=utf-8 :vi │ ╞══════════════════════════════════════════════════════════════════════════════╡ │ Copyright 2022 Justine Alexandra Roberts Tunney │ │ │ │ Permission to use, copy, modify, and/or distribute this software for │ │ any purpose with or without fee is hereby granted, provided that the │ │ above copyright notice and this permission notice appear in all copies. │ │ │ │ THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL │ │ WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED │ │ WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE │ │ AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL │ │ DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR │ │ PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER │ │ TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR │ │ PERFORMANCE OF THIS SOFTWARE. │ ╚─────────────────────────────────────────────────────────────────────────────*/ #include "libc/assert.h" #include "libc/calls/calls.h" #include "libc/calls/sig.internal.h" #include "libc/calls/struct/sigaltstack.h" #include "libc/calls/struct/sigset.h" #include "libc/calls/struct/sigset.internal.h" #include "libc/calls/syscall-sysv.internal.h" #include "libc/cosmo.h" #include "libc/dce.h" #include "libc/errno.h" #include "libc/fmt/itoa.h" #include "libc/intrin/bsr.h" #include "libc/intrin/describeflags.h" #include "libc/intrin/dll.h" #include "libc/intrin/kprintf.h" #include "libc/intrin/stack.h" #include "libc/intrin/strace.h" #include "libc/intrin/weaken.h" #include "libc/log/internal.h" #include "libc/macros.h" #include "libc/mem/alloca.h" #include "libc/mem/mem.h" #include "libc/nexgen32e/crc32.h" #include "libc/nt/enum/memflags.h" #include "libc/nt/enum/pageflags.h" #include "libc/nt/memory.h" #include "libc/nt/runtime.h" #include "libc/nt/synchronization.h" #include "libc/runtime/runtime.h" #include "libc/runtime/stack.h" #include "libc/runtime/syslib.internal.h" #include "libc/str/locale.internal.h" #include "libc/str/str.h" #include "libc/sysv/consts/auxv.h" #include "libc/sysv/consts/clone.h" #include "libc/sysv/consts/prot.h" #include "libc/sysv/consts/sig.h" #include "libc/sysv/consts/ss.h" #include "libc/thread/posixthread.internal.h" #include "libc/thread/thread.h" #include "libc/thread/tls.h" #include "third_party/nsync/wait_s.internal.h" __static_yoink("nsync_mu_lock"); __static_yoink("nsync_mu_unlock"); __static_yoink("nsync_mu_trylock"); __static_yoink("nsync_mu_rlock"); __static_yoink("nsync_mu_runlock"); __static_yoink("_pthread_onfork_prepare"); __static_yoink("_pthread_onfork_parent"); __static_yoink("_pthread_onfork_child"); void _pthread_free(struct PosixThread *pt) { // thread must be removed from _pthread_list before calling unassert(dll_is_alone(&pt->list) && &pt->list != _pthread_list); // do nothing for the one and only magical statical posix thread if (pt->pt_flags & PT_STATIC) return; // unmap stack if the cosmo runtime was responsible for mapping it if (pt->pt_flags & PT_OWNSTACK) cosmo_stack_free(pt->pt_attr.__stackaddr, pt->pt_attr.__stacksize, pt->pt_attr.__guardsize); // reclaim thread's cached nsync waiter object if (pt->tib->tib_nsync) nsync_waiter_destroy_(pt->tib->tib_nsync); // free any additional upstream system resources // our fork implementation wipes this handle in child automatically uint64_t syshand = atomic_load_explicit(&pt->tib->tib_syshand, memory_order_relaxed); if (syshand) { if (IsWindows()) unassert(CloseHandle(syshand)); // non-inheritable else if (IsXnuSilicon()) unassert(!__syslib->__pthread_join(syshand, 0)); } // free heap memory associated with thread bulk_free( (void *[]){ pt->pt_flags & PT_OWNSIGALTSTACK ? pt->pt_attr.__sigaltstackaddr : 0, pt->pt_tls, pt, }, 3); } void _pthread_decimate(enum PosixThreadStatus threshold) { struct PosixThread *pt; struct Dll *e, *e2, *list = 0; enum PosixThreadStatus status; // acquire posix threads gil _pthread_lock(); // swiftly remove every single zombie // that isn't being held by a killing thread for (e = dll_last(_pthread_list); e; e = e2) { e2 = dll_prev(_pthread_list, e); pt = POSIXTHREAD_CONTAINER(e); if (atomic_load_explicit(&pt->pt_refs, memory_order_acquire) > 0) continue; // pthread_kill() has a lease on this thread if (atomic_load_explicit(&pt->tib->tib_ctid, memory_order_acquire)) continue; // thread is still using stack so leave alone status = atomic_load_explicit(&pt->pt_status, memory_order_acquire); if (status < threshold) { if (threshold == kPosixThreadZombie) break; // zombies only exist at the end of the linked list continue; } if (status == kPosixThreadTerminated) if (!(pt->pt_flags & PT_STATIC)) STRACE("warning: you forgot to join or detach thread id %d", atomic_load_explicit(&pt->tib->tib_ptid, memory_order_acquire)); dll_remove(&_pthread_list, e); dll_make_first(&list, e); } // release posix threads gil _pthread_unlock(); // now free our thread local batch of zombies // because death is a release and not a punishment // this is advantaged by not holding locks over munmap while ((e = dll_first(list))) { pt = POSIXTHREAD_CONTAINER(e); dll_remove(&list, e); _pthread_free(pt); } } static int PosixThread(void *arg) { struct PosixThread *pt = arg; // setup scheduling if (pt->pt_attr.__inheritsched == PTHREAD_EXPLICIT_SCHED) { unassert(_weaken(_pthread_reschedule)); _weaken(_pthread_reschedule)(pt); // yoinked by attribute builder } // setup signal stack if (pt->pt_attr.__sigaltstacksize) { struct sigaltstack *ss = alloca(sizeof(struct sigaltstack)); ss->ss_sp = pt->pt_attr.__sigaltstackaddr; ss->ss_size = pt->pt_attr.__sigaltstacksize; ss->ss_flags = 0; unassert(!sigaltstack(ss, 0)); } // set long jump handler so pthread_exit can bring control back here if (!__builtin_setjmp(pt->pt_exiter)) { // setup signals for new thread pt->pt_attr.__sigmask &= ~(1ull << (SIGTHR - 1)); if (IsWindows() || IsMetal()) { atomic_store_explicit(&__get_tls()->tib_sigmask, pt->pt_attr.__sigmask, memory_order_release); if (_weaken(__sig_check)) _weaken(__sig_check)(); } else { sys_sigprocmask(SIG_SETMASK, &pt->pt_attr.__sigmask, 0); } void *ret = pt->pt_start(pt->pt_val); // ensure pthread_cleanup_pop(), and pthread_exit() popped cleanup unassert(!pt->pt_cleanup); // calling pthread_exit() will either jump back here, or call exit pthread_exit(ret); } // avoid signal handler being triggered after we trash our own stack __sig_block(); // return to clone polyfill which clears tid, wakes futex, and exits return 0; } static errno_t pthread_create_impl(pthread_t *thread, const pthread_attr_t *attr, void *(*start_routine)(void *), void *arg, sigset_t oldsigs) { int rc, e = errno; struct PosixThread *pt; // create posix thread object if (!(pt = calloc(1, sizeof(struct PosixThread)))) { errno = e; return EAGAIN; } dll_init(&pt->list); pt->pt_locale = &__global_locale; pt->pt_start = start_routine; pt->pt_val = arg; // create thread local storage memory if (!(pt->pt_tls = _mktls(&pt->tib))) { free(pt); errno = e; return EAGAIN; } // setup attributes if (attr) { pt->pt_attr = *attr; attr = 0; } else { pthread_attr_init(&pt->pt_attr); } // setup stack if (pt->pt_attr.__stackaddr) { // caller supplied their own stack // assume they know what they're doing as much as possible if (IsOpenbsd()) { if ((rc = FixupCustomStackOnOpenbsd(&pt->pt_attr))) { _pthread_free(pt); return rc; } } } else { // cosmo is managing the stack pt->pt_flags |= PT_OWNSTACK; errno_t err = cosmo_stack_alloc(&pt->pt_attr.__stacksize, &pt->pt_attr.__guardsize, &pt->pt_attr.__stackaddr); if (err) { _pthread_free(pt); if (err == EINVAL || err == EOVERFLOW) { return EINVAL; } else { return EAGAIN; } } } // setup signal stack if (pt->pt_attr.__sigaltstacksize) { if (!pt->pt_attr.__sigaltstackaddr) { if (!(pt->pt_attr.__sigaltstackaddr = malloc(pt->pt_attr.__sigaltstacksize))) { _pthread_free(pt); return errno; } pt->pt_flags |= PT_OWNSIGALTSTACK; } } // set initial status pt->tib->tib_pthread = (pthread_t)pt; atomic_store_explicit(&pt->tib->tib_sigmask, -1, memory_order_relaxed); if (!pt->pt_attr.__havesigmask) { pt->pt_attr.__havesigmask = true; pt->pt_attr.__sigmask = oldsigs; } switch (pt->pt_attr.__detachstate) { case PTHREAD_CREATE_JOINABLE: atomic_store_explicit(&pt->pt_status, kPosixThreadJoinable, memory_order_relaxed); break; case PTHREAD_CREATE_DETACHED: atomic_store_explicit(&pt->pt_status, kPosixThreadDetached, memory_order_relaxed); break; default: _pthread_free(pt); return EINVAL; } // add thread to global list // we add it to the beginning since zombies go at the end _pthread_lock(); dll_make_first(&_pthread_list, &pt->list); _pthread_unlock(); // if pthread_attr_setdetachstate() was used then it's possible for // the `pt` object to be freed before this clone call has returned! _pthread_ref(pt); // launch PosixThread(pt) in new thread if ((rc = clone( PosixThread, pt->pt_attr.__stackaddr, pt->pt_attr.__stacksize, CLONE_VM | CLONE_THREAD | CLONE_FS | CLONE_FILES | CLONE_SIGHAND | CLONE_SYSVSEM | CLONE_SETTLS | CLONE_PARENT_SETTID | CLONE_CHILD_SETTID | CLONE_CHILD_CLEARTID, pt, &pt->tib->tib_ptid, __adj_tls(pt->tib), &pt->tib->tib_ctid))) { _pthread_lock(); dll_remove(&_pthread_list, &pt->list); _pthread_unlock(); _pthread_free(pt); return rc; } *thread = (pthread_t)pt; return 0; } static const char *DescribeHandle(char buf[12], errno_t err, pthread_t *th) { if (err) return "n/a"; if (!th) return "NULL"; FormatInt32(buf, _pthread_tid((struct PosixThread *)*th)); return buf; } /** * Creates thread, e.g. * * void *worker(void *arg) { * fputs(arg, stdout); * return "there\n"; * } * * int main() { * void *result; * pthread_t id; * pthread_create(&id, 0, worker, "hi "); * pthread_join(id, &result); * fputs(result, stdout); * } * * Here's the OSI model of threads in Cosmopolitan: * * ┌──────────────────┐ * │ pthread_create() │ - Standard * └─────────┬────────┘ Abstraction * ┌─────────┴────────┐ * │ clone() │ - Polyfill * └─────────┬────────┘ * ┌────────┬──┴┬─┬─┬─────────┐ - Kernel * ┌─────┴─────┐ │ │ │┌┴──────┐ │ Interfaces * │ sys_clone │ │ │ ││ tfork │ ┌┴─────────────┐ * └───────────┘ │ │ │└───────┘ │ CreateThread │ * ┌───────────────┴──┐│┌┴────────┐ └──────────────┘ * │ bsdthread_create │││ thr_new │ * └──────────────────┘│└─────────┘ * ┌───────┴──────┐ * │ _lwp_create │ * └──────────────┘ * * @param thread is used to output the thread id upon success, which * must be non-null * @param attr points to launch configuration, or may be null * to use sensible defaults; it must be initialized using * pthread_attr_init() * @param start_routine is your thread's callback function * @param arg is an arbitrary value passed to `start_routine` * @return 0 on success, or errno on error * @raise EAGAIN if resources to create thread weren't available * @raise EINVAL if `attr` was supplied and had unnaceptable data * @raise EPERM if scheduling policy was requested and user account * isn't authorized to use it * @returnserrno */ errno_t pthread_create(pthread_t *thread, const pthread_attr_t *attr, void *(*start_routine)(void *), void *arg) { errno_t err; _pthread_decimate(kPosixThreadZombie); BLOCK_SIGNALS; err = pthread_create_impl(thread, attr, start_routine, arg, _SigMask); ALLOW_SIGNALS; STRACE("pthread_create([%s], %p, %t, %p) → %s", DescribeHandle(alloca(12), err, thread), attr, start_routine, arg, DescribeErrno(err)); if (!err) _pthread_unref(*(struct PosixThread **)thread); return err; }