Status PlanYieldPolicy::yield(stdx::function<void()> beforeYieldingFn, stdx::function<void()> whileYieldingFn) { invariant(_planYielding); invariant(canAutoYield()); // After we finish yielding (or in any early return), call resetTimer() to prevent yielding // again right away. We delay the resetTimer() call so that the clock doesn't start ticking // until after we return from the yield. ON_BLOCK_EXIT([this]() { resetTimer(); }); _forceYield = false; OperationContext* opCtx = _planYielding->getOpCtx(); invariant(opCtx); invariant(!opCtx->lockState()->inAWriteUnitOfWork()); // Can't use writeConflictRetry since we need to call saveState before reseting the transaction. for (int attempt = 1; true; attempt++) { try { // All YIELD_AUTO plans will get here eventually when the elapsed tracker triggers // that it's time to yield. Whether or not we will actually yield, we need to check // if this operation has been interrupted. if (_policy == PlanExecutor::YIELD_AUTO) { MONGO_FAIL_POINT_PAUSE_WHILE_SET(setCheckForInterruptHang); auto interruptStatus = opCtx->checkForInterruptNoAssert(); if (!interruptStatus.isOK()) { return interruptStatus; } } try { _planYielding->saveState(); } catch (const WriteConflictException&) { invariant(!"WriteConflictException not allowed in saveState"); } if (_policy == PlanExecutor::WRITE_CONFLICT_RETRY_ONLY) { // Just reset the snapshot. Leave all LockManager locks alone. opCtx->recoveryUnit()->abandonSnapshot(); } else { // Release and reacquire locks. if (beforeYieldingFn) beforeYieldingFn(); QueryYield::yieldAllLocks(opCtx, whileYieldingFn, _planYielding->nss()); } return _planYielding->restoreStateWithoutRetrying(); } catch (const WriteConflictException&) { CurOp::get(opCtx)->debug().writeConflicts++; WriteConflictException::logAndBackoff( attempt, "plan execution restoreState", _planYielding->nss().ns()); // retry } } }
bool PlanYieldPolicy::yield(RecordFetcher* fetcher) { invariant(_planYielding); invariant(allowedToYield()); _forceYield = false; OperationContext* opCtx = _planYielding->getOpCtx(); invariant(opCtx); invariant(!opCtx->lockState()->inAWriteUnitOfWork()); // Can't use MONGO_WRITE_CONFLICT_RETRY_LOOP_BEGIN/END since we need to call saveState // before reseting the transaction. for (int attempt = 1; true; attempt++) { try { // All YIELD_AUTO plans will get here eventually when the elapsed tracker triggers // that it's time to yield. Whether or not we will actually yield, we need to check // if this operation has been interrupted. Throws if the interrupt flag is set. if (_policy == PlanExecutor::YIELD_AUTO) { opCtx->checkForInterrupt(); } // No need to yield if the collection is NULL. if (NULL == _planYielding->collection()) { return true; } try { _planYielding->saveState(); } catch (const WriteConflictException& wce) { invariant(!"WriteConflictException not allowed in saveState"); } if (_policy == PlanExecutor::WRITE_CONFLICT_RETRY_ONLY) { // Just reset the snapshot. Leave all LockManager locks alone. opCtx->recoveryUnit()->commitAndRestart(); } else { // Release and reacquire locks. QueryYield::yieldAllLocks(opCtx, fetcher); } return _planYielding->restoreStateWithoutRetrying(opCtx); } catch (const WriteConflictException& wce) { opCtx->getCurOp()->debug().writeConflicts++; WriteConflictException::logAndBackoff(attempt, "plan execution restoreState", _planYielding->collection()->ns().ns()); // retry } } }