OSCL_EXPORT_REF void OsclTLSRegistry::cleanup(Oscl_DefAlloc &alloc, int32 &aError) { TOsclTlsKey* pkey = NULL; aError = 0; sLock.Lock(); #if (OSCL_TLS_IS_KEYED) if (!iTlsKey) { aError = EPVErrorBaseNotInstalled;//No key! sLock.Unlock(); return; } pkey = iTlsKey->iOsclTlsKey; #endif //Cleanup this thread's registry registry_pointer_type registry = OSCL_STATIC_CAST(registry_pointer_type , TLSStorageOps::get_registry(pkey)); if (!OSCL_TLS_REGISTRY_VALID(registry)) { aError = EPVErrorBaseNotInstalled;//No registry! sLock.Unlock(); return; } alloc.deallocate(registry); TLSStorageOps::save_registry(pkey, NULL, aError); if (aError) { sLock.Unlock(); return; } #if (OSCL_TLS_IS_KEYED) //Remove Tls key iTlsKey->iRefCnt--; if (iTlsKey->iRefCnt == 0) { //Deallocate key. OSCL_TLS_KEY_DELETE_FUNC(*pkey); alloc.deallocate(pkey); iTlsKey->~TlsKey(); alloc.deallocate(iTlsKey); iTlsKey = NULL; } #endif sLock.Unlock(); }
OSCL_EXPORT_REF void OsclSingletonRegistry::cleanup(Oscl_DefAlloc &alloc, int32 &aError) { aError = 0; if (!iSingletonTable) { aError = EPVErrorBaseNotInstalled;//no table! return; } //decrement the ref count and cleanup when it reaches zero. iSingletonTable->iTableLock.Lock(); iSingletonTable->iRefCount--; if (iSingletonTable->iRefCount == 0) { //cleanup iSingletonTable->iTableLock.Unlock(); iSingletonTable->~SingletonTable(); alloc.deallocate(iSingletonTable); iSingletonTable = NULL; } else { iSingletonTable->iTableLock.Unlock(); } }
OSCL_EXPORT_REF void CPVInterfaceProxy::Delete() //called under app thread context { Oscl_DefAlloc *alloc = this->iAlloc; bool default_alloc = (this->iAlloc == &this->iDefAlloc); this->~CPVInterfaceProxy(); if (default_alloc) { OsclMemAllocator defalloc; defalloc.deallocate(this); } else { alloc->deallocate(this); } }
OSCL_EXPORT_REF void OsclTLSRegistry::initialize(Oscl_DefAlloc &alloc, int32 &aError) { TOsclTlsKey* pkey = NULL; aError = 0; #if ( OSCL_TLS_IS_KEYED) //Allocate the table on the first init call. //Note there's some risk of thread contention here, since //the thread lock is not available until after this step. if (!iTlsKey) { OsclAny* table = alloc.allocate(sizeof(TlsKey)); if (!table) { aError = EPVErrorBaseOutOfMemory; return; } //allocate space for key pkey = (TOsclTlsKey*)alloc.allocate(sizeof(TOsclTlsKey)); if (!pkey) { aError = EPVErrorBaseOutOfMemory; alloc.deallocate(table); return; } //create key for this thread. if (!OSCL_TLS_KEY_CREATE_FUNC(*pkey)) { aError = EPVErrorBaseSystemCallFailed; alloc.deallocate(pkey); alloc.deallocate(table); return; } iTlsKey = new(table) TlsKey(); iTlsKey->iLock.Lock(); iTlsKey->iRefCnt++; iTlsKey->iOsclTlsKey = pkey; iTlsKey->iLock.Unlock(); } else { iTlsKey->iLock.Lock(); iTlsKey->iRefCnt++; pkey = iTlsKey->iOsclTlsKey; iTlsKey->iLock.Unlock(); } #endif // allocate the space and save the pointer registry_pointer_type registry = OSCL_STATIC_CAST(registry_pointer_type, alloc.allocate(sizeof(registry_type) * OSCL_TLS_MAX_SLOTS)); if (registry == 0) { aError = EPVErrorBaseOutOfMemory; return; } // initialize all TLSs to 0 for (uint32 ii = 0; ii < OSCL_TLS_MAX_SLOTS; ii++) registry[ii] = 0; // initialize the magic number registry[OSCL_TLS_ID_MAGICNUM] = (OsclAny*)OSCL_TLS_MAGIC_NUMBER; // save it away TLSStorageOps::save_registry(pkey, registry, aError); }