/*++ Copyright (c) 1995-1996 Microsoft Corporation Module Name: OrSvr.cxx Abstract: Object resolver server side class implementations. CServerOxid, CServerOid, CServerSet and CServerSetTable classes are implemented here. Author: Mario Goertzel [MarioGo] Revision History: MarioGo 04-03-95 Combined many smaller .cxx files MarioGo 01-12-96 Locally unique IDs --*/ #include // // ScanForOrphanedPinnedOids // // This function is called from CServerOxid::ProcessRelease when // the soxid is deregistered or the server dies. // void ScanForOrphanedPinnedOids(CServerOxid* pDeadOxid) { CListElement* pLE; CServerOid* pOid; CServerOid* pNextOid; ASSERT(gpServerLock->HeldExclusive()); // Walk the list, unpinning oids which were owned by the // dead soxid. pLE = gpServerPinnedOidList->First(); pOid = pLE ? CServerOid::ContainingRecord2(pLE) : NULL; while (pOid) { pLE = pLE->Next(); pNextOid = pLE ? CServerOid::ContainingRecord2(pLE) : NULL; if (pOid->GetOxid() == pDeadOxid) { // This will remove it from the pinned list pOid->SetPinned(FALSE); } pOid = pNextOid; } ASSERT(gpServerLock->HeldExclusive()); return; } // // CServerOid methods // void CServerOid::Reference() { ASSERT(gpServerLock->HeldExclusive()); BOOL fRemove = (this->References() == 0); // We may remove something from a PList more then once; this won't // hurt anything. fRemove is used to avoid trying to remove it more // often then necessary without taking lock. this->CIdTableElement::Reference(); if (fRemove) { CPListElement * t = Remove(); ASSERT(t == &this->_plist || t == 0); } } DWORD CServerOid::Release() { ASSERT(gpServerLock->HeldExclusive()); DWORD c = this->CReferencedObject::Dereference(); if (0 == c) { // If another thread is already running this down it // means we got referenced and released during the rundown // callback. That thread will figure out what to do. if (IsRunningDown()) { KdPrintEx((DPFLTR_DCOMSS_ID, DPFLTR_WARNING_LEVEL, "OR: Oid running down in release: %p\n", this)); } else if (IsFreed() || this->_pOxid->IsRunning() == FALSE) { // Server freed this OID already; no need to run it down KdPrintEx((DPFLTR_DCOMSS_ID, DPFLTR_INFO_LEVEL, "OR: OID %p freed by server so not rundown\n", this)); SetRundown(TRUE); delete this; } else { // All serverset (or pinned) references have been released. Put // ourselves into the oid plist so we can be rundown. ASSERT(!IsPinned()); Insert(); } } // this pointer maybe invalid. return(c); } CServerOid::~CServerOid() { ASSERT(gpServerLock->HeldExclusive()); ASSERT(_pOxid); ASSERT(_fRunningDown); ASSERT(!IsPinned()); _pOxid->Release(); gpServerOidTable->Remove(this); } void CServerOid::KeepAlive() // A client has removed this oid from its set. This keeps // the oid alive for another timeout period. { ASSERT(gpServerLock->HeldExclusive()); if (IsRunningDown() == FALSE && References() == 0) { // It's in the rundown list, move it to the end. CPListElement *pT = Remove(); ASSERT(pT == &this->_plist); Insert(); } } void CServerOid::SetPinned(BOOL fPinned) { ASSERT(gpServerLock->HeldExclusive()); // Assert that this is a state switch. ASSERT(_fPinned ? !fPinned : fPinned); // Set new state _fPinned = fPinned; // When we are pinned, we take an extra reference to avoid further // rundown attempts. When unpinned, we remove the reference. if (_fPinned) { this->Reference(); // Now we should not be in any list ASSERT(_list.NotInList()); ASSERT(_plist.NotInList()); gpServerPinnedOidList->Insert(&_list); } else { // We should be in the gpServerPinnedOidList list, but not the plist ASSERT(_list.InList()); ASSERT(_plist.NotInList()); gpServerPinnedOidList->Remove(&_list); // This Release call may put us in the oidplist this->Release(); } ASSERT(gpServerLock->HeldExclusive()); return; } // // CServerOidPList method // CServerOid * CServerOidPList::MaybeRemoveMatchingOxid( IN CTime &when, IN CServerOid *pOid ) { CPListElement *ple; CServerOid *poid; CMutexLock lock(&this->_lock); ple = (CPListElement *)CPList::First(); while( ple != 0 && *ple->GetTimeout() < when) { poid = CServerOid::ContainingRecord(ple); if (poid->Match(pOid)) { Remove(ple); return(poid); } ple = ple->Next(); } return(0); } // // CServerOxid methods // void CServerOxid::ProcessRelease() /*++ Routine Desciption The server process owning this OXID has either died or deregistered this oxid. Releases the oxid and nulls the pProcess pointer. Arguments: n/a Return Value: n/a --*/ { ASSERT(gpServerLock->HeldExclusive()); ASSERT(_pProcess); _fRunning = FALSE; ScanForOrphanedPinnedOids(this); Release(); // This pointer may now be invalid, _pProcess pointer maybe invalid. } CServerOxid::~CServerOxid(void) { ASSERT(gpServerLock->HeldExclusive()); ASSERT(_pProcess); ASSERT(!IsRunning()); // implies that the oxid has been removed from the table ASSERT(!_fRundownInProgress); _pProcess->Release(); } ORSTATUS CServerOxid::GetInfo( OUT OXID_INFO *poxidInfo, IN BOOL fLocal ) // Server lock held shared. { ORSTATUS status; DUALSTRINGARRAY *psa; if (!IsRunning()) { // Server crashed, info is not needed. return(OR_NOSERVER); } if (fLocal) { psa = _pProcess->GetLocalBindings(); } else { psa = _pProcess->GetRemoteBindings(); } if (!psa) { return(OR_NOMEM); } // copy the data memcpy(poxidInfo, &_info, sizeof(_info)); poxidInfo->psa = psa; return(OR_OK); } void CServerOxid::RundownOids(ULONG cOids, CServerOid* aOids[]) // Note: Returns without the server lock held. { RPC_STATUS status = RPC_S_OK; ASSERT(cOids > 0); ASSERT(cOids <= MAX_OID_RUNDOWNS_PER_CALL); ASSERT(gpServerLock->HeldExclusive()); // We only issue the rundown call if a) we're still running // and b) there isn't another rundown call to this oxid // already in progress. if (IsRunning() && !_fRundownInProgress) { // Note: The server lock is released during the callback. // Since the OID hasn't rundown yet, it will keep a reference // to this OXID which in turn keeps the process object alive. // Ask our process object to issue an async call to try // to rundown the specified oids. If call was sent ok, // return. Otherwise fall thru and cleanup below. _fRundownInProgress = TRUE; status = _pProcess->RundownOids(this, cOids, aOids); ASSERT(!gpServerLock->HeldExclusive()); if (status == RPC_S_OK) { return; } else { // Re-take the lock gpServerLock->LockExclusive(); // No rundown in progress now _fRundownInProgress = FALSE; } } BYTE aRundownStatus[MAX_OID_RUNDOWNS_PER_CALL]; // If server died or apartment was unregistered, okay to run all // oids down. Otherwise don't run any down (this is also the // case for when we are still running but another rundown is already // in progress). for (ULONG i = 0; i < cOids; i++) { aRundownStatus[i] = IsRunning() ? ORS_DONTRUNDOWN : ORS_OK_TO_RUNDOWN; } // Call the notify function whih will do appropriate // cleanup on the oids ProcessRundownResultsInternal(FALSE, cOids, aOids, aRundownStatus); gpServerLock->UnlockExclusive(); } void CServerOxid::ProcessRundownResults(ULONG cOids, CServerOid* aOids[], BYTE aRundownStatus[]) /*++ Routine Desciption Takes the appropriate action based on the result of trying to rundown one or more oids. Arguments: cOids -- # of oids in aOids aOids -- array of CServerOid*'s that we tried to rundown aRundownStatus -- array of status values from the OID_RUNDOWN_STATUS enumeration. Return Value: void --*/ { ProcessRundownResultsInternal(TRUE, cOids, aOids, aRundownStatus); return; } void CServerOxid::ProcessRundownResultsInternal(BOOL fAsyncReturn, ULONG cOids, CServerOid* aOids[], BYTE aRundownStatus[]) /*++ Routine Desciption Takes the appropriate action based on the result of trying to rundown one or more oids. Arguments: fAsyncReturn -- TRUE if we are processing these results in response to a async rundown call returning, FALSE otherwise. cOids -- # of oids in aOids aOids -- array of CServerOid*'s that we tried to rundown aRundownStatus -- array of status values from the OID_RUNDOWN_STATUS enumeration. Return Value: void --*/ { ULONG i; ASSERT(gpServerLock->HeldExclusive()); // Flip the "rundown in progress" flag as necessary. if (fAsyncReturn) { ASSERT(_fRundownInProgress); _fRundownInProgress = FALSE; } for(i = 0; i < cOids; i++) { CServerOid* pOid; pOid = aOids[i]; ASSERT(pOid); ASSERT(this == pOid->GetOxid()); if (aRundownStatus[i] == ORS_OID_PINNED) { KdPrintEx((DPFLTR_DCOMSS_ID, DPFLTR_INFO_LEVEL, "OR: Randown OID %p but the client says it's pinned\n", pOid)); // Server says that particular oid is "pinned", ie cannot // be rundown until we are told otherwise. Note that we // check for this before we check # of references -- the // ORS_OID_PINNED status takes precedence. pOid->SetPinned(TRUE); pOid->SetRundown(FALSE); } else if (pOid->References() != 0) { // Added to a set while running down and still referenced. pOid->SetRundown(FALSE); } else if (aRundownStatus[i] == ORS_OK_TO_RUNDOWN) { delete pOid; } else { ASSERT(aRundownStatus[i] == ORS_DONTRUNDOWN); KdPrintEx((DPFLTR_DCOMSS_ID, DPFLTR_INFO_LEVEL, "OR: Randown OID %p but the client kept it alive\n", pOid)); // Client want us to keep it alive and is still running. pOid->SetRundown(FALSE); pOid->Insert(); } } } ORSTATUS CServerOxid::GetRemoteInfo( OUT OXID_INFO *pInfo, IN USHORT cClientProtseqs, IN USHORT aClientProtseqs[] ) // Server lock held shared. { ORSTATUS status; USHORT protseq; status = GetInfo(pInfo, FALSE); if (OR_OK == status) { protseq = FindMatchingProtseq(cClientProtseqs, aClientProtseqs, pInfo->psa->aStringArray ); if (0 == protseq) { MIDL_user_free(pInfo->psa); pInfo->psa = 0; status = OR_I_NOPROTSEQ; } } return(status); } ORSTATUS CServerOxid::LazyUseProtseq( IN USHORT cClientProtseqs, IN USHORT *aClientProtseqs ) // Server lock held shared, returns with the server lock exclusive. // Note: It is possible, that after this call the OXID has been deleted. { ORSTATUS status; if (IsRunning()) { // Keep this OXID process alive while making the callback. If the process // crashes and this OXID has no OIDs it could be released by everybody // else. This keeps the OXID and process alive until we finish. this->Reference(); gpServerLock->UnlockShared(); status = _pProcess->UseProtseqIfNeeded(cClientProtseqs, aClientProtseqs); gpServerLock->LockExclusive(); this->Release(); } else { gpServerLock->ConvertToExclusive(); status = OR_NOSERVER; } // Note: The this poiner maybe BAD now. return(status); } // // CServerSet methods. // ORSTATUS CServerSet::AddObject(OID &oid) { ORSTATUS status = OR_OK; CServerOid *pOid; ASSERT(gpServerLock->HeldExclusive()); CIdKey key(oid); pOid = (CServerOid *)gpServerOidTable->Lookup(key); if (pOid) { ASSERT(_blistOids.Member(pOid) == FALSE); // Don't add duplicate IDs to the set if (_blistOids.Member(pOid) == FALSE) { status = _blistOids.Insert(pOid); if (status == OR_OK) { pOid->Reference(); } } } else status = OR_BADOID; VALIDATE((status, OR_BADOID, OR_NOMEM, 0)); return(status); } void CServerSet::RemoveObject(OID &oid) { CServerOid *pOid; ASSERT(gpServerLock->HeldExclusive()); CIdKey key(oid); pOid = (CServerOid *)gpServerOidTable->Lookup(key); if (pOid) { CServerOid *pOidTmp = (CServerOid *)_blistOids.Remove(pOid); if (pOid == pOidTmp) { pOid->Release(); } else { // Set doesn't contain the specified oid, treat this as an // add and delete by keeping the oid alive for another timeout // period. ASSERT(pOidTmp == 0); pOid->KeepAlive(); } } } BOOL CServerSet::ValidateObjects(BOOL fShared) // fShared - Indicates if the server lock is held // shared (TRUE) or exclusive (FALSE). // // Return - TRUE the lock is still shared, false // the lock is held exclusive. { CServerOid *pOid; CBListIterator oids(&_blistOids); // Since we own a reference on all the Oids they must still exist. // No need to lock exclusive until we find something to delete. while(pOid = (CServerOid *)oids.Next()) { if (!pOid->IsRunning()) { if (fShared) { KdPrintEx((DPFLTR_DCOMSS_ID, DPFLTR_WARNING_LEVEL, "OR: Cleanup in set (%p), removing dead oids.\n", this, pOid)); gpServerLock->ConvertToExclusive(); fShared = FALSE; oids.Reset(&_blistOids); continue; } CServerOid *pOidTmp = (CServerOid *)_blistOids.Remove(pOid); ASSERT(pOidTmp == pOid); ASSERT(pOid->IsRunning() == FALSE); pOid->Release(); } } return(fShared); } BOOL CServerSet::Rundown() // Rundown the whole set. { CServerOid *poid; CTime now; ASSERT(gpServerLock->HeldExclusive()); if (_timeout > now) { // Don't rundown if we've recieved a late ping. return(FALSE); } if (_fLocal && _blistOids.Size() != 0) { KdPrintEx((DPFLTR_DCOMSS_ID, DPFLTR_WARNING_LEVEL, "OR: Premature rundown of local set ignored.\n")); return(FALSE); } KdPrintEx((DPFLTR_DCOMSS_ID, DPFLTR_WARNING_LEVEL, "OR: Set %p's client appears to have died\n", this)); CBListIterator oids(&_blistOids); while(poid = (CServerOid *)oids.Next()) { poid->Release(); } return(TRUE); } // // CServerSetTable implementation // CServerSet * CServerSetTable::Allocate( IN USHORT sequence, IN PSID psid, IN BOOL fLocal, OUT ID &setid ) /*++ Routine Description: Allocates a new CServerSet and returns the setid for the new set. Arguments: sequence - initial sequence number for the new set. psid - pointer to an NT SID structure for the new set. fLocal - TRUE : set is for the local client, FALSE : set is for a remote client setid - the setid of the set returned. Unchanged if return value 0. Return Value: 0 - Unable to allocate a resource non-zero - A pointer to the newly created set. --*/ { ASSERT(gpServerLock->HeldExclusive()); UINT i; LARGE_INTEGER li; ASSERT(_cAllocated <= _cMax); if (_cAllocated == _cMax) { // Table is full, realloc // Do this first, if it succeeds great even if // a later allocation fails. If not, fail now. IndexElement *pNew = new IndexElement[_cMax * 2]; if (!pNew) { return(0); } for (i = 0; i < _cMax; i++) { pNew[i] = _pElements[i]; } for(i = _cMax; i < _cMax*2; i++) { pNew[i]._sequence = GetTickCount(); pNew[i]._pSet = 0; } delete _pElements; _pElements = pNew; _cMax *= 2; } CServerSet *pSet = new CServerSet(sequence, psid, fLocal); if (0 == pSet) { return(0); } ASSERT(_pElements); ASSERT(_cMax > _cAllocated); for(i = _iFirstFree; i < _cMax; i++) { if (0 == _pElements[i]._pSet) { _pElements[i]._sequence++; _pElements[i]._pSet = pSet; li.HighPart = i + 1; li.LowPart = _pElements[i]._sequence; setid = li.QuadPart; _iFirstFree = i + 1; _cAllocated++; return pSet; } } ASSERT(0); return(0); } CServerSet * CServerSetTable::Lookup( IN ID setid ) /*++ Routine Description: Looks up an a set given the sets ID. Server lock held shared. Arguments: setid - the ID of the set to lookup Return Value: 0 - set doesn't exist non-zero - the set. --*/ { LARGE_INTEGER li; li.QuadPart = setid; LONG i = li.HighPart - 1; DWORD sequence = (DWORD)(setid & ~((ID)0)); if (i >= 0 && (DWORD) i < _cMax) { if (_pElements[i]._sequence == sequence) { // May still be null if it is free and has not yet be reused. return(_pElements[i]._pSet); } } return(0); } ID CServerSetTable::CheckForRundowns( ) /*++ Routine Description: Used by ping and worker threads to monitor for sets that should be rundown. It is called with the server lock held shared. Arguments: None Return Value: 0 - Didn't find a set to rundown non-zero - ID of a set which may need to be rundown. --*/ { UINT i, end; LARGE_INTEGER id; id.QuadPart = 0; ASSERT(_iRundown < _cMax); if (_cAllocated == 0) { return(0); } i = _iRundown; do { ASSERT(_cAllocated); // loop assumes one or more allocated elements. i = (i + 1) % _cMax; } while(0 == _pElements[i]._pSet); ASSERT(_pElements[i]._pSet); if (_pElements[i]._pSet->ShouldRundown()) { id.HighPart = i + 1; id.LowPart = _pElements[i]._sequence; } _iRundown = i; return(id.QuadPart); } BOOL CServerSetTable::RundownSetIfNeeded( IN ID setid ) /*++ Routine Description: Rundowns down a set (or sets) if needed. Called by ping and worker threads. Server lock held exclusive. Arguments: setid - An ID previously returned from CheckForRundowns. Return Value: TRUE - A set was actually rundown FALSE - No sets actually rundown --*/ { ASSERT(gpServerLock->HeldExclusive()); CServerSet *pSet = Lookup(setid); if (0 == pSet || FALSE == pSet->ShouldRundown()) { // Set already randown or has been pinged in the meantime. return(FALSE); } // PERF REVIEW this function has the option of running multiple sets, // saving the worker thread from taking and leaving the lock many times // when a bunch of sets all rundown. This feature is not used. LARGE_INTEGER li; li.QuadPart = setid; UINT i = li.HighPart - 1; if (pSet->Rundown()) { delete pSet; _cAllocated--; if (i < _iFirstFree) _iFirstFree = i; _pElements[i]._pSet = 0; return(TRUE); } return(FALSE); } void CServerSetTable::PingAllSets() /*++ Routine Description: Performs a ping of all sets currently in the table. Arguments: none Return Value: void --*/ { ASSERT(gpServerLock->HeldExclusive()); ULONG i; for(i = 0; i < _cMax; i++) { if (_pElements[i]._pSet) { _pElements[i]._pSet->Ping(FALSE); } } }