/* cygtls.cc Copyright 2003, 2004 Red Hat, Inc. This software is a copyrighted work licensed under the terms of the Cygwin license. Please consult the file "CYGWIN_LICENSE" for details. */ #include "winsup.h" #include "thread.h" #include "cygtls.h" #include "assert.h" #include #include #include "exceptions.h" #include "sync.h" #include "cygerrno.h" #include "path.h" #include "fhandler.h" #include "dtable.h" #include "cygheap.h" #include "pinfo.h" #include "sigproc.h" class sentry { static muto *lock; int destroy; public: void init (); bool acquired () {return lock->acquired ();} sentry () {destroy = 0;} sentry (DWORD wait) {destroy = lock->acquire (wait);} ~sentry () {if (destroy) lock->release ();} friend void _cygtls::init (); }; muto NO_COPY *sentry::lock; static size_t NO_COPY nthreads; #define THREADLIST_CHUNK 256 void _cygtls::init () { if (cygheap->threadlist) memset (cygheap->threadlist, 0, cygheap->sthreads * sizeof (cygheap->threadlist[0])); else { cygheap->sthreads = THREADLIST_CHUNK; cygheap->threadlist = (_cygtls **) ccalloc (HEAP_TLS, cygheap->sthreads, sizeof (cygheap->threadlist[0])); } new_muto1 (sentry::lock, sentry_lock); } void _cygtls::set_state (bool is_exception) { initialized = CYGTLS_INITIALIZED + is_exception; } void _cygtls::reset_exception () { if (initialized == CYGTLS_EXCEPTION) { #ifdef DEBUGGING debug_printf ("resetting stack after an exception stack %p, stackptr %p", stack, stackptr); #endif set_state (false); } } /* Two calls to get the stack right... */ void _cygtls::call (DWORD (*func) (void *, void *), void *arg) { char buf[CYGTLS_PADSIZE]; call2 (func, arg, buf); } void _cygtls::call2 (DWORD (*func) (void *, void *), void *arg, void *buf) { exception_list except_entry; /* Initialize this thread's ability to respond to things like SIGSEGV or SIGFPE. */ init_exceptions (&except_entry); _my_tls.init_thread (buf, func); DWORD res = func (arg, buf); _my_tls.remove (INFINITE); ExitThread (res); } void _cygtls::init_thread (void *x, DWORD (*func) (void *, void *)) { if (x) { memset (this, 0, CYGTLS_PADSIZE); stackptr = stack; if (_GLOBAL_REENT) { local_clib._stdin = _GLOBAL_REENT->_stdin; local_clib._stdout = _GLOBAL_REENT->_stdout; local_clib._stderr = _GLOBAL_REENT->_stderr; local_clib.__sdidinit = _GLOBAL_REENT->__sdidinit ? -1 : 0; local_clib.__cleanup = _GLOBAL_REENT->__cleanup; local_clib.__sglue._niobs = 3; local_clib.__sglue._iobs = &_GLOBAL_REENT->__sf[0]; } local_clib._current_locale = "C"; locals.process_logmask = LOG_UPTO (LOG_DEBUG); } locals.exitsock = INVALID_SOCKET; set_state (false); errno_addr = &(local_clib._errno); if ((void *) func == (void *) cygthread::stub || (void *) func == (void *) cygthread::simplestub) return; sentry here (INFINITE); if (nthreads >= cygheap->sthreads) { cygheap->threadlist = (_cygtls **) crealloc (cygheap->threadlist, (cygheap->sthreads += THREADLIST_CHUNK) * sizeof (cygheap->threadlist[0])); memset (cygheap->threadlist + nthreads, 0, THREADLIST_CHUNK * sizeof (cygheap->threadlist[0])); } cygheap->threadlist[nthreads++] = this; } void _cygtls::fixup_after_fork () { if (sig) { pop (); sig = 0; } stacklock = 0; locals.exitsock = INVALID_SOCKET; wq.thread_ev = NULL; } void _cygtls::remove (DWORD wait) { debug_printf ("wait %p", wait); if (!locals.exitsock) return; // FIXME: Need some sort of atthreadexit function to allow things like // select to control this themselves if (locals.exitsock != INVALID_SOCKET) closesocket (locals.exitsock); do { sentry here (wait); if (here.acquired ()) { for (size_t i = 0; i < nthreads; i++) if (this == cygheap->threadlist[i]) { if (i < --nthreads) cygheap->threadlist[i] = cygheap->threadlist[nthreads]; debug_printf ("removed %p element %d", this, i); break; } } } while (0); remove_wq (wait); } void _cygtls::push (__stack_t addr, bool exception) { if (exception) lock (); *stackptr++ = (__stack_t) addr; if (exception) unlock (); set_state (exception); } #define BAD_IX ((size_t) -1) static size_t NO_COPY threadlist_ix = BAD_IX; _cygtls * _cygtls::find_tls (int sig) { debug_printf ("sig %d\n", sig); sentry here (INFINITE); __asm__ volatile (".equ _threadlist_exception_return,."); _cygtls *res = NULL; for (threadlist_ix = 0; threadlist_ix < nthreads; threadlist_ix++) if (sigismember (&(cygheap->threadlist[threadlist_ix]->sigwait_mask), sig)) { res = cygheap->threadlist[threadlist_ix]; break; } threadlist_ix = BAD_IX; return res; } void _cygtls::set_siginfo (sigpacket *pack) { infodata = pack->si; } extern "C" DWORD __stdcall RtlUnwind (void *, void *, void *, DWORD); static int handle_threadlist_exception (EXCEPTION_RECORD *e, void *frame, CONTEXT *, void *) { if (e->ExceptionCode != STATUS_ACCESS_VIOLATION) { system_printf ("handle_threadlist_exception called with exception code %d\n", e->ExceptionCode); return 1; } sentry here; if (threadlist_ix == BAD_IX) { system_printf ("handle_threadlist_exception called with threadlist_ix %d\n", BAD_IX); return 1; } if (!here.acquired ()) { system_printf ("handle_threadlist_exception couldn't aquire muto\n"); return 1; } extern void *threadlist_exception_return; cygheap->threadlist[threadlist_ix]->remove (INFINITE); threadlist_ix = 0; RtlUnwind (frame, threadlist_exception_return, e, 0); return 0; } void _cygtls::init_threadlist_exceptions (exception_list *el) { extern void init_exception_handler (exception_list *, exception_handler *); init_exception_handler (el, handle_threadlist_exception); }