2008.02.10 Maxim.Khiszinsky Created
*/
-#include <cds/gc/hp/hp.h>
+#include <cds/gc/details/hp.h>
#include <algorithm> // std::sort
#include "hp_const.h"
GarbageCollector::~GarbageCollector()
{
CDS_DEBUG_ONLY( const cds::OS::ThreadId nullThreadId = cds::OS::c_NullThreadId; )
- CDS_DEBUG_ONLY( const cds::OS::ThreadId mainThreadId = cds::OS::getCurrentThreadId() ;)
+ CDS_DEBUG_ONLY( const cds::OS::ThreadId mainThreadId = cds::OS::get_current_thread_id() ;)
hplist_node * pHead = m_pListHead.load( atomics::memory_order_relaxed );
m_pListHead.store( nullptr, atomics::memory_order_relaxed );
for ( hplist_node * hprec = pHead; hprec; hprec = pNext ) {
assert( hprec->m_idOwner.load( atomics::memory_order_relaxed ) == nullThreadId
|| hprec->m_idOwner.load( atomics::memory_order_relaxed ) == mainThreadId
- || !cds::OS::isThreadAlive( hprec->m_idOwner.load( atomics::memory_order_relaxed ) )
+ || !cds::OS::is_thread_alive( hprec->m_idOwner.load( atomics::memory_order_relaxed ) )
);
details::retired_vector& vect = hprec->m_arrRetired;
details::retired_vector::iterator itRetired = vect.begin();
details::retired_vector::iterator itRetiredEnd = vect.end();
while ( itRetired != itRetiredEnd ) {
- DeletePtr( *itRetired );
+ itRetired->free();
++itRetired;
}
vect.clear();
inline GarbageCollector::hplist_node * GarbageCollector::NewHPRec()
{
- CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_AllocNewHPRec );
+ CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_AllocNewHPRec )
return new hplist_node( *this );
}
inline void GarbageCollector::DeleteHPRec( hplist_node * pNode )
{
- CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_DeleteHPRec );
+ CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_DeleteHPRec )
assert( pNode->m_arrRetired.size() == 0 );
delete pNode;
}
- inline void GarbageCollector::DeletePtr( details::retired_ptr& p )
+ details::hp_record * GarbageCollector::alloc_hp_record()
{
- CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_DeletedNode );
- p.free();
- }
-
- details::HPRec * GarbageCollector::AllocateHPRec()
- {
- CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_AllocHPRec );
+ CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_AllocHPRec )
hplist_node * hprec;
const cds::OS::ThreadId nullThreadId = cds::OS::c_NullThreadId;
- const cds::OS::ThreadId curThreadId = cds::OS::getCurrentThreadId();
+ const cds::OS::ThreadId curThreadId = cds::OS::get_current_thread_id();
// First try to reuse a retired (non-active) HP record
for ( hprec = m_pListHead.load( atomics::memory_order_acquire ); hprec; hprec = hprec->m_pNextNode ) {
return hprec;
}
- void GarbageCollector::RetireHPRec( details::HPRec * pRec )
+ void GarbageCollector::free_hp_record( details::hp_record * pRec )
{
assert( pRec != nullptr );
- CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_RetireHPRec );
+ CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_RetireHPRec )
pRec->clear();
Scan( pRec );
+ HelpScan( pRec );
hplist_node * pNode = static_cast<hplist_node *>( pRec );
pNode->m_idOwner.store( cds::OS::c_NullThreadId, atomics::memory_order_release );
}
for ( hplist_node * hprec = m_pListHead.load(atomics::memory_order_acquire); hprec; hprec = pNext ) {
pNext = hprec->m_pNextNode;
if ( hprec->m_idOwner.load(atomics::memory_order_relaxed) != nullThreadId ) {
- RetireHPRec( hprec );
+ free_hp_record( hprec );
}
}
}
- void GarbageCollector::classic_scan( details::HPRec * pRec )
+ void GarbageCollector::classic_scan( details::hp_record * pRec )
{
- CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_ScanCallCount );
+ CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_ScanCallCount )
std::vector< void * > plist;
plist.reserve( m_nMaxThreadCount * m_nHazardPointerCount );
details::retired_vector::iterator itRetired = arrRetired.begin();
details::retired_vector::iterator itRetiredEnd = arrRetired.end();
// arrRetired is not a std::vector!
- // clear is just set up item counter to 0, the items is not destroying
+ // clear() is just set up item counter to 0, the items is not destroyed
arrRetired.clear();
- std::vector< void * >::iterator itBegin = plist.begin();
- std::vector< void * >::iterator itEnd = plist.end();
- while ( itRetired != itRetiredEnd ) {
- if ( std::binary_search( itBegin, itEnd, itRetired->m_p) ) {
- CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_DeferredNode );
- arrRetired.push( *itRetired );
+ {
+ std::vector< void * >::iterator itBegin = plist.begin();
+ std::vector< void * >::iterator itEnd = plist.end();
+ size_t nDeferredCount = 0;
+ while ( itRetired != itRetiredEnd ) {
+ if ( std::binary_search( itBegin, itEnd, itRetired->m_p ) ) {
+ arrRetired.push( *itRetired );
+ ++nDeferredCount;
+ }
+ else
+ itRetired->free();
+ ++itRetired;
}
- else
- DeletePtr( *itRetired );
- ++itRetired;
+ CDS_HAZARDPTR_STATISTIC( m_Stat.m_DeferredNode += nDeferredCount )
+ CDS_HAZARDPTR_STATISTIC( m_Stat.m_DeletedNode += (itRetiredEnd - arrRetired.begin()) - nDeferredCount )
}
}
- void GarbageCollector::inplace_scan( details::HPRec * pRec )
+ void GarbageCollector::inplace_scan( details::hp_record * pRec )
{
- CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_ScanCallCount );
+ CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_ScanCallCount )
// In-place scan algo uses LSB of retired ptr as a mark for internal purposes.
// It is correct if all retired pointers are ar least 2-byte aligned (LSB is zero).
// LSB is used for marking pointers that cannot be deleted yet
details::retired_vector::iterator itRetired = pRec->m_arrRetired.begin();
details::retired_vector::iterator itRetiredEnd = pRec->m_arrRetired.end();
- for ( details::retired_vector::iterator it = itRetired; it != itRetiredEnd; ++it ) {
- if ( reinterpret_cast<ptr_atomic_t>(it->m_p) & 1 ) {
+ for ( auto it = itRetired; it != itRetiredEnd; ++it ) {
+ if ( it->m_n & 1 ) {
// found a pointer with LSB bit set - use classic_scan
classic_scan( pRec );
return;
// Sort retired pointer array
std::sort( itRetired, itRetiredEnd, cds::gc::details::retired_ptr::less );
- // Search guarded pointers in retired array
-
- hplist_node * pNode = m_pListHead.load(atomics::memory_order_acquire);
+ // Check double free
+ /*
+ {
+ auto it = itRetired;
+ auto itPrev = it;
+ while ( ++it != itRetiredEnd ) {
+ if ( it->m_p == itPrev->m_p )
+ throw std::runtime_error( "Double free" );
+ itPrev = it;
+ }
+ }
+ */
- while ( pNode ) {
- for ( size_t i = 0; i < m_nHazardPointerCount; ++i ) {
- void * hptr = pNode->m_hzp[i];
- if ( hptr ) {
- details::retired_ptr dummyRetired;
- dummyRetired.m_p = hptr;
- details::retired_vector::iterator it = std::lower_bound( itRetired, itRetiredEnd, dummyRetired, cds::gc::details::retired_ptr::less );
- if ( it != itRetiredEnd && it->m_p == hptr ) {
- // Mark retired pointer as guarded
- it->m_p = reinterpret_cast<void *>(reinterpret_cast<ptr_atomic_t>(it->m_p ) | 1);
+ // Search guarded pointers in retired array
+ hplist_node * pNode = m_pListHead.load( atomics::memory_order_acquire );
+
+ {
+ details::retired_ptr dummyRetired;
+ while ( pNode ) {
+ if ( !pNode->m_bFree.load( atomics::memory_order_acquire ) ) {
+ for ( size_t i = 0; i < m_nHazardPointerCount; ++i ) {
+ void * hptr = pNode->m_hzp[i];
+ if ( hptr ) {
+ dummyRetired.m_p = hptr;
+ details::retired_vector::iterator it = std::lower_bound( itRetired, itRetiredEnd, dummyRetired, cds::gc::details::retired_ptr::less );
+ if ( it != itRetiredEnd && it->m_p == hptr ) {
+ // Mark retired pointer as guarded
+ it->m_n |= 1;
+ }
+ }
}
}
+ pNode = pNode->m_pNextNode;
}
- pNode = pNode->m_pNextNode;
}
// Move all marked pointers to head of array
- details::retired_vector::iterator itInsert = itRetired;
- for ( details::retired_vector::iterator it = itRetired; it != itRetiredEnd; ++it ) {
- if ( reinterpret_cast<ptr_atomic_t>(it->m_p) & 1 ) {
- it->m_p = reinterpret_cast<void *>(reinterpret_cast<ptr_atomic_t>(it->m_p ) & ~1);
- *itInsert = *it;
- ++itInsert;
- CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_DeferredNode );
- }
- else {
- // Retired pointer may be freed
- DeletePtr( *it );
+ {
+ auto itInsert = itRetired;
+ for ( auto it = itRetired; it != itRetiredEnd; ++it ) {
+ if ( it->m_n & 1 ) {
+ it->m_n &= ~1;
+ if ( itInsert != it )
+ *itInsert = *it;
+ ++itInsert;
+ }
+ else {
+ // Retired pointer may be freed
+ it->free();
+ }
}
+ const size_t nDeferred = itInsert - itRetired;
+ pRec->m_arrRetired.size( nDeferred );
+ CDS_HAZARDPTR_STATISTIC( m_Stat.m_DeferredNode += nDeferred )
+ CDS_HAZARDPTR_STATISTIC( m_Stat.m_DeletedNode += (itRetiredEnd - itRetired) - nDeferred )
}
- pRec->m_arrRetired.size( itInsert - itRetired );
}
- void GarbageCollector::HelpScan( details::HPRec * pThis )
+ void GarbageCollector::HelpScan( details::hp_record * pThis )
{
- CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_HelpScanCallCount );
+ CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_HelpScanCallCount )
- assert( static_cast<hplist_node *>(pThis)->m_idOwner.load(atomics::memory_order_relaxed) == cds::OS::getCurrentThreadId() );
+ assert( static_cast<hplist_node *>(pThis)->m_idOwner.load(atomics::memory_order_relaxed) == cds::OS::get_current_thread_id() );
const cds::OS::ThreadId nullThreadId = cds::OS::c_NullThreadId;
- const cds::OS::ThreadId curThreadId = cds::OS::getCurrentThreadId();
+ const cds::OS::ThreadId curThreadId = cds::OS::get_current_thread_id();
for ( hplist_node * hprec = m_pListHead.load(atomics::memory_order_acquire); hprec; hprec = hprec->m_pNextNode ) {
// If m_bFree == true then hprec->m_arrRetired is empty - we don't need to see it
// Several threads may work concurrently so we use atomic technique only.
{
cds::OS::ThreadId curOwner = hprec->m_idOwner.load(atomics::memory_order_acquire);
- if ( curOwner == nullThreadId || !cds::OS::isThreadAlive( curOwner )) {
+ if ( curOwner == nullThreadId || !cds::OS::is_thread_alive( curOwner )) {
if ( !hprec->m_idOwner.compare_exchange_strong( curOwner, curThreadId, atomics::memory_order_release, atomics::memory_order_relaxed ))
continue;
}
}
}
- // We own the thread successfully. Now, we can see whether HPRec has retired pointers.
+ // We own the thread successfully. Now, we can see whether hp_record has retired pointers.
// If it has ones then we move to pThis that is private for current thread.
details::retired_vector& src = hprec->m_arrRetired;
details::retired_vector& dest = pThis->m_arrRetired;
while ( itRetired != itRetiredEnd ) {
dest.push( *itRetired );
if ( dest.isFull()) {
- CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_CallScanFromHelpScan );
+ CDS_HAZARDPTR_STATISTIC( ++m_Stat.m_CallScanFromHelpScan )
Scan( pThis );
}
++itRetired;
hprec->m_bFree.store(true, atomics::memory_order_release);
hprec->m_idOwner.store( nullThreadId, atomics::memory_order_release );
+
+ Scan( pThis );
}
}