8003935: Simplify the needed includes for using Thread::current()
Reviewed-by: dholmes, rbackman, coleenp
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#include "precompiled.hpp"
#include "runtime/thread.inline.hpp"
#include "runtime/threadLocalStorage.hpp"
#ifdef AMD64
extern "C" Thread* fs_load(ptrdiff_t tlsOffset);
extern "C" intptr_t fs_thread();
#else
// From solaris_i486.s
extern "C" Thread* gs_load(ptrdiff_t tlsOffset);
extern "C" intptr_t gs_thread();
#endif // AMD64
// tlsMode encoding:
//
// pd_tlsAccessUndefined : uninitialized
// pd_tlsAccessSlow : not available
// pd_tlsAccessIndirect :
// old-style indirect access - present in "T1" libthread.
// use thr_slot_sync_allocate() to attempt to allocate a slot.
// pd_tlsAccessDirect :
// new-style direct access - present in late-model "T2" libthread.
// Allocate the offset (slot) via _thr_slot_offset() or by
// defining an IE- or LE-mode TLS/TSD slot in the launcher and then passing
// that offset into libjvm.so.
// See http://sac.eng/Archives/CaseLog/arc/PSARC/2003/159/.
//
// Note that we have a capability gap - some early model T2 forms
// (e.g., unpatched S9) have neither _thr_slot_sync_allocate() nor
// _thr_slot_offset(). In that case we revert to the usual
// thr_getspecific accessor.
//
static ThreadLocalStorage::pd_tlsAccessMode tlsMode = ThreadLocalStorage::pd_tlsAccessUndefined ;
static ptrdiff_t tlsOffset = 0 ;
static thread_key_t tlsKey ;
typedef int (*TSSA_Entry) (ptrdiff_t *, int, int) ;
typedef ptrdiff_t (*TSO_Entry) (int) ;
ThreadLocalStorage::pd_tlsAccessMode ThreadLocalStorage::pd_getTlsAccessMode ()
{
guarantee (tlsMode != pd_tlsAccessUndefined, "tlsMode not set") ;
return tlsMode ;
}
ptrdiff_t ThreadLocalStorage::pd_getTlsOffset () {
guarantee (tlsMode != pd_tlsAccessUndefined, "tlsMode not set") ;
return tlsOffset ;
}
// TODO: Consider the following improvements:
//
// 1. Convert from thr_*specific* to pthread_*specific*.
// The pthread_ forms are slightly faster. Also, the
// pthread_ forms have a pthread_key_delete() API which
// would aid in clean JVM shutdown and the eventual goal
// of permitting a JVM to reinstantiate itself withing a process.
//
// 2. See ThreadLocalStorage::init(). We end up allocating
// two TLS keys during VM startup. That's benign, but we could collapse
// down to one key without too much trouble.
//
// 3. MacroAssembler::get_thread() currently emits calls to thr_getspecific().
// Modify get_thread() to call Thread::current() instead.
//
// 4. Thread::current() currently uses a cache keyed by %gs:[0].
// (The JVM has PSARC permission to use %g7/%gs:[0]
// as an opaque temporally unique thread identifier).
// For C++ access to a thread's reflexive "self" pointer we
// should consider using one of the following:
// a. a radix tree keyed by %esp - as in EVM.
// This requires two loads (the 2nd dependent on the 1st), but
// is easily inlined and doesn't require a "miss" slow path.
// b. a fast TLS/TSD slot allocated by _thr_slot_offset
// or _thr_slot_sync_allocate.
//
// 5. 'generate_code_for_get_thread' is a misnomer.
// We should change it to something more general like
// pd_ThreadSelf_Init(), for instance.
//
static void AllocateTLSOffset ()
{
int rslt ;
TSSA_Entry tssa ;
TSO_Entry tso ;
ptrdiff_t off ;
guarantee (tlsMode == ThreadLocalStorage::pd_tlsAccessUndefined, "tlsMode not set") ;
tlsMode = ThreadLocalStorage::pd_tlsAccessSlow ;
tlsOffset = 0 ;
#ifndef AMD64
tssa = (TSSA_Entry) dlsym (RTLD_DEFAULT, "thr_slot_sync_allocate") ;
if (tssa != NULL) {
off = -1 ;
rslt = (*tssa)(&off, NULL, NULL) ; // (off,dtor,darg)
if (off != -1) {
tlsOffset = off ;
tlsMode = ThreadLocalStorage::pd_tlsAccessIndirect ;
return ;
}
}
rslt = thr_keycreate (&tlsKey, NULL) ;
if (rslt != 0) {
tlsMode = ThreadLocalStorage::pd_tlsAccessSlow ; // revert to slow mode
return ;
}
tso = (TSO_Entry) dlsym (RTLD_DEFAULT, "_thr_slot_offset") ;
if (tso != NULL) {
off = (*tso)(tlsKey) ;
if (off >= 0) {
tlsOffset = off ;
tlsMode = ThreadLocalStorage::pd_tlsAccessDirect ;
return ;
}
}
// Failure: Too bad ... we've allocated a TLS slot we don't need and there's
// no provision in the ABI for returning the slot.
//
// If we didn't find a slot then then:
// 1. We might be on liblwp.
// 2. We might be on T2 libthread, but all "fast" slots are already
// consumed
// 3. We might be on T1, and all TSD (thr_slot_sync_allocate) slots are
// consumed.
// 4. We might be on T2 libthread, but it's be re-architected
// so that fast slots are no longer g7-relative.
//
tlsMode = ThreadLocalStorage::pd_tlsAccessSlow ;
return ;
#endif // AMD64
}
void ThreadLocalStorage::generate_code_for_get_thread() {
AllocateTLSOffset() ;
}
void ThreadLocalStorage::set_thread_in_slot(Thread *thread) {
guarantee (tlsMode != pd_tlsAccessUndefined, "tlsMode not set") ;
if (tlsMode == pd_tlsAccessIndirect) {
#ifdef AMD64
intptr_t tbase = fs_thread();
#else
intptr_t tbase = gs_thread();
#endif // AMD64
*((Thread**) (tbase + tlsOffset)) = thread ;
} else
if (tlsMode == pd_tlsAccessDirect) {
thr_setspecific (tlsKey, (void *) thread) ;
// set with thr_setspecific and then readback with gs_load to validate.
#ifdef AMD64
guarantee (thread == fs_load(tlsOffset), "tls readback failure") ;
#else
guarantee (thread == gs_load(tlsOffset), "tls readback failure") ;
#endif // AMD64
}
}
extern "C" Thread* get_thread() {
return ThreadLocalStorage::thread();
}