void WriteDataPat_r10b::SendToIOSQ(SharedIOSQPtr iosq, SharedIOCQPtr iocq, SharedWritePtr writeCmd, string qualifier) { uint32_t numCE; uint32_t ceRemain; uint32_t numReaped; uint32_t isrCount; uint16_t uniqueId; LOG_NRM("Send the cmd to hdw via %s IOSQ", qualifier.c_str()); iosq->Send(writeCmd, uniqueId); iosq->Dump(FileSystem::PrepDumpFile(mGrpName, mTestName, "iosq", qualifier), "Just B4 ringing SQ doorbell, dump entire IOSQ contents"); iosq->Ring(); LOG_NRM("Wait for the CE to arrive in IOCQ"); if (iocq->ReapInquiryWaitSpecify(CALC_TIMEOUT_ms(1), 1, numCE, isrCount) == false) { iocq->Dump( FileSystem::PrepDumpFile(mGrpName, mTestName, "iocq", qualifier), "Unable to see any CE's in IOCQ, dump entire CQ contents"); throw FrmwkEx(HERE, "Unable to see completion of cmd"); } else if (numCE != 1) { iocq->Dump( FileSystem::PrepDumpFile(mGrpName, mTestName, "iocq", qualifier), "Unable to see any CE's in IOCQ, dump entire CQ contents"); throw FrmwkEx(HERE, "The IOCQ should only have 1 CE as a result of a cmd"); } iocq->Dump(FileSystem::PrepDumpFile(mGrpName, mTestName, "iocq", qualifier), "Just B4 reaping IOCQ, dump entire CQ contents"); LOG_NRM("The CQ's metrics B4 reaping holds head_ptr needed"); struct nvme_gen_cq iocqMetrics = iocq->GetQMetrics(); KernelAPI::LogCQMetrics(iocqMetrics); LOG_NRM("Reaping CE from IOCQ, requires memory to hold reaped CE"); SharedMemBufferPtr ceMemIOCQ = SharedMemBufferPtr(new MemBuffer()); if ((numReaped = iocq->Reap(ceRemain, ceMemIOCQ, isrCount, numCE, true)) != 1) { throw FrmwkEx(HERE, "Verified there was 1 CE, but reaping produced %d", numReaped); } LOG_NRM("The reaped CE is..."); iocq->LogCE(iocqMetrics.head_ptr); union CE ce = iocq->PeekCE(iocqMetrics.head_ptr); ProcessCE::Validate(ce); // throws upon error }
void IOQRollChkDiff_r10b::IOQRollChkDiff(uint32_t numEntriesIOSQ, uint32_t numEntriesIOCQ) { uint16_t uniqueId; // Lookup objs which were created in a prior test within group SharedASQPtr asq = CAST_TO_ASQ(gRsrcMngr->GetObj(ASQ_GROUP_ID)) SharedACQPtr acq = CAST_TO_ACQ(gRsrcMngr->GetObj(ACQ_GROUP_ID)) SharedIOCQPtr iocq = Queues::CreateIOCQContigToHdw(mGrpName, mTestName, DEFAULT_CMD_WAIT_ms, asq, acq, IOQ_ID, numEntriesIOCQ, false, IOCQ_CONTIG_GROUP_ID, false, 1); SharedIOSQPtr iosq = Queues::CreateIOSQContigToHdw(mGrpName, mTestName, DEFAULT_CMD_WAIT_ms, asq, acq, IOQ_ID, numEntriesIOSQ, false, IOSQ_CONTIG_GROUP_ID, IOQ_ID, 0); LOG_NRM("(IOCQ Size, IOSQ Size)=(%d,%d)", iocq->GetNumEntries(), iosq->GetNumEntries()); SharedWritePtr writeCmd = SetWriteCmd(); LOG_NRM("Send #%d cmds to hdw via the contiguous IOSQ #%d", MAX(iosq->GetNumEntries(), iocq->GetNumEntries()) + 2, iosq->GetQId()); for (uint32_t numEntries = 0; numEntries < (uint32_t)(MAX (iosq->GetNumEntries(), iocq->GetNumEntries()) + 2); numEntries++) { LOG_NRM("Processing #%d entries", numEntries); iosq->Send(writeCmd, uniqueId); iosq->Ring(); ReapAndVerifyCE(iocq, (numEntries + 1) % iosq->GetNumEntries()); } VerifyQPointers(iosq, iocq); LOG_NRM("Delete IOSQ before the IOCQ to comply with spec."); Queues::DeleteIOSQToHdw(mGrpName, mTestName, DEFAULT_CMD_WAIT_ms, iosq, asq, acq); Queues::DeleteIOCQToHdw(mGrpName, mTestName, DEFAULT_CMD_WAIT_ms, iocq, asq, acq); }
void MaxIOQMSIXManyTo1_r10b::SendCmdAndReap(SharedIOSQPtr iosq, SharedIOCQPtr iocq, SharedCmdPtr cmd, uint32_t anticipatedIrqs) { uint16_t uniqueId; uint32_t numCE; string work; uint32_t isrCount; LOG_NRM("Send the cmd to hdw via IOSQ #%d", iosq->GetQId()); iosq->Send(cmd, uniqueId); work = str(boost::format("ioqId.%d.%s") % iosq->GetQId() % cmd->GetName().c_str()); iosq->Dump(FileSystem::PrepDumpFile(mGrpName, mTestName, "iosq", work), "Just B4 ringing doorbell, dump IOSQ"); iosq->Ring(); LOG_NRM("Wait for the CE to arrive in CQ %d", iocq->GetQId()); if (iocq->ReapInquiryWaitSpecify(DEFAULT_CMD_WAIT_ms, 1, numCE, isrCount) == false) { iocq->Dump(FileSystem::PrepDumpFile(mGrpName, mTestName, "iocq.fail", work), "Dump Entire IOCQ"); iosq->Dump(FileSystem::PrepDumpFile(mGrpName, mTestName, "iosq.fail", work), "Dump Entire IOSQ"); throw FrmwkEx(HERE, "Unable to see CEs for issued cmd"); } work = str(boost::format("iocq.%d") % uniqueId); IO::ReapCE(iocq, 1, isrCount, mGrpName, mTestName, work); if (isrCount != anticipatedIrqs) { iocq->Dump(FileSystem::PrepDumpFile(mGrpName, mTestName, "iocq.fail", work), "Dump Entire IOCQ"); iosq->Dump(FileSystem::PrepDumpFile(mGrpName, mTestName, "iosq.fail", work), "Dump Entire IOSQ"); throw FrmwkEx(HERE, "Anticipated ISRs #%d but fired #%d", anticipatedIrqs, isrCount); } }
void ManyCmdSubmit_r10b::RunCoreTest() { /** \verbatim * Assumptions: * 1) Test CreateResources_r10b has run prior. * \endverbatim */ uint32_t nCmds; uint32_t isrCount; uint32_t ceRemain; uint32_t numReaped; uint32_t numCE; uint16_t uniqueId; // Lookup objs which were created in a prior test within group SharedASQPtr asq = CAST_TO_ASQ(gRsrcMngr->GetObj(ASQ_GROUP_ID)) SharedACQPtr acq = CAST_TO_ACQ(gRsrcMngr->GetObj(ACQ_GROUP_ID)) LOG_NRM("Determine the max IOQ entries supported"); uint64_t ctrlCapReg; if (gRegisters->Read(CTLSPC_CAP, ctrlCapReg) == false) throw FrmwkEx(HERE, "Unable to determine MQES"); uint32_t maxIOQEntries = (uint32_t)(ctrlCapReg & CAP_MQES); maxIOQEntries += 1; // convert to 1-based. LOG_NRM("Create contig IOQ's"); SharedIOCQPtr iocq = Queues::CreateIOCQContigToHdw(mGrpName, mTestName, CALC_TIMEOUT_ms(1), asq, acq, IOQ_ID, maxIOQEntries, false, IOCQ_CONTIG_GROUP_ID, true, 0); SharedIOSQPtr iosq = Queues::CreateIOSQContigToHdw(mGrpName, mTestName, CALC_TIMEOUT_ms(1), asq, acq, IOQ_ID, maxIOQEntries, false, IOSQ_CONTIG_GROUP_ID, IOQ_ID, 0); SharedWritePtr writeCmd = SetWriteCmd(); uint32_t increment = 1; for (uint32_t x = 1; x < maxIOQEntries; x += increment) { LOG_NRM("Sending #%d simultaneous NVM write cmds to IOSQ", x); // Issue x simultaneous NVM write cmds. for (nCmds = 1; nCmds <= x; nCmds++) iosq->Send(writeCmd, uniqueId); iosq->Ring(); // Variable wait time w.r.t "x" and expect all CE's to arrive in CQ. if (iocq->ReapInquiryWaitSpecify(CALC_TIMEOUT_ms(x), x, numCE, isrCount) == false) { iocq->Dump(FileSystem::PrepDumpFile(mGrpName, mTestName, "iocq.reqpinq." + writeCmd->GetName()), "Dump Entire IOCQ"); LogCEAndCQMetrics(iocq); throw FrmwkEx(HERE, "Unable to see CEs for issued cmds #%d", x); } else if (numCE != x) { iocq->Dump(FileSystem::PrepDumpFile(mGrpName, mTestName, "iocq.reqpinq." + writeCmd->GetName()), "Dump Entire IOCQ"); LogCEAndCQMetrics(iocq); throw FrmwkEx(HERE, "The IOCQ should only have #%d CE's as a result " "of #%d simultaneous cmds but found #%d", x, x, numCE); } SharedMemBufferPtr ceMem = SharedMemBufferPtr(new MemBuffer()); if ((numReaped = iocq->Reap(ceRemain, ceMem, isrCount, x, true)) != x) { iocq->Dump(FileSystem::PrepDumpFile(mGrpName, mTestName, "iocq.reap." + writeCmd->GetName()), "Dump Entire IOCQ"); LogCEAndCQMetrics(iocq); throw FrmwkEx(HERE, "Unable to reap on IOCQ #%d. Reaped #%d of #%d", IOQ_ID, numReaped, x); } // Testing every cmd takes numerous hrs, so compromise. if ((maxIOQEntries - 1000) % x == 0) increment = 100; else if ((x % 1000) == 0) increment = 1000; else if ((maxIOQEntries - 100) % x == 0) increment = 10; else if ((x % 100) == 0) increment = 100; else if ((maxIOQEntries - 10) % x == 0) increment = 1; else if ((x % 10) == 0) increment = 10; } // Delete IOSQ before the IOCQ to comply with spec. Queues::DeleteIOSQToHdw(mGrpName, mTestName, CALC_TIMEOUT_ms(1), iosq, asq, acq); Queues::DeleteIOCQToHdw(mGrpName, mTestName, CALC_TIMEOUT_ms(1), iocq, asq, acq); }
void PartialReapMSIX_r10b::RunCoreTest() { /** \verbatim * Assumptions: * 1) Requires test createResources_r10b to execute 1st * \endverbatim */ bool capable; char work[25]; uint64_t reg; uint16_t numIrqSupport; uint16_t numIrqs = 1; uint16_t uniqueId; uint32_t isrCount; uint32_t numCE; // Only allowed to execute if DUT supports MSI-X IRQ's if (gCtrlrConfig->IsMSIXCapable(capable, numIrqSupport) == false) throw FrmwkEx(HERE); else if (capable == false) { LOG_WARN("DUT does not support MSI-X IRQ's; unable to execute test"); return; } // This requirement must be met, if not then DUT is most likely at fault if (gRegisters->Read(CTLSPC_CAP, reg) == false) throw FrmwkEx(HERE, "Unable to determine CAP.MQES"); reg &= CAP_MQES; reg += 1; // convert to 1-based if (reg < (uint64_t)NUM_IOQ_ENTRY) { LOG_WARN("Desired to support >= %d elements in IOQ's for test", NUM_IOQ_ENTRY); return; } LOG_NRM("Setup the necessary IRQ's"); if (gCtrlrConfig->SetState(ST_DISABLE) == false) throw FrmwkEx(HERE); if (gCtrlrConfig->SetIrqScheme(INT_MSIX, numIrqs) == false) { throw FrmwkEx(HERE, "Unable to use %d IRQ's, but DUT reports it supports", numIrqs); } gCtrlrConfig->SetCSS(CtrlrConfig::CSS_NVM_CMDSET); if (gCtrlrConfig->SetState(ST_ENABLE) == false) throw FrmwkEx(HERE); // Lookup objs which were created in a prior test within group SharedASQPtr asq = CAST_TO_ASQ(gRsrcMngr->GetObj(ASQ_GROUP_ID)) SharedACQPtr acq = CAST_TO_ACQ(gRsrcMngr->GetObj(ACQ_GROUP_ID)) LOG_NRM("Create the IOQ pair which is needed"); gCtrlrConfig->SetIOCQES(gInformative->GetIdentifyCmdCtrlr()-> GetValue(IDCTRLRCAP_CQES) & 0xf); SharedIOCQPtr iocq = Queues::CreateIOCQContigToHdw(mGrpName, mTestName, DEFAULT_CMD_WAIT_ms, asq, acq, IOQ_ID, NUM_IOQ_ENTRY, false, "", true, 0); gCtrlrConfig->SetIOSQES(gInformative->GetIdentifyCmdCtrlr()-> GetValue(IDCTRLRCAP_SQES) & 0xf); SharedIOSQPtr iosq = Queues::CreateIOSQContigToHdw(mGrpName, mTestName, DEFAULT_CMD_WAIT_ms, asq, acq, IOQ_ID, NUM_IOQ_ENTRY, false, "", IOQ_ID, 0); // NOTE: We are overloading IRQ 0, it is being used by ACQ and we have // created 1 IOQ's, thus to start out the ACQ will already have 2 // IRQs. The following algo must add this usage. uint32_t anticipatedIrqs = (2 + 1); SharedWritePtr writeCmd = CreateCmd(); for (unsigned i = 1; i <= NUM_CMDS_ISSUE; i++) { LOG_NRM("Sending write cmd %d", i); iosq->Send(writeCmd, uniqueId); iosq->Ring(); LOG_NRM("Wait for cmd to be processed"); if (iocq->ReapInquiryWaitSpecify(DEFAULT_CMD_WAIT_ms, i, numCE, isrCount) == false) { iocq->Dump( FileSystem::PrepDumpFile(mGrpName, mTestName, "acq", "error"), "Unable to determine if CE's arrived"); throw FrmwkEx(HERE, "Only detected %d CE's arriving", numCE); } else if (numCE != i) { iocq->Dump( FileSystem::PrepDumpFile(mGrpName, mTestName, "acq", "notEnough"), "Test requires seeing all CE's"); throw FrmwkEx(HERE, "The anticipated %d CE's have not arrived", i); } else if (isrCount != anticipatedIrqs) { // 1 IRQ per cmd did not occur iocq->Dump( FileSystem::PrepDumpFile(mGrpName, mTestName, "acq", "irqBad"), "Test requires seeing all correct num of IRQ's"); throw FrmwkEx(HERE, "The anticipated %d IRQ', but detected %d", anticipatedIrqs, isrCount); } } // There is an active IRQ outstanding and another to arrive due to the // PBA pending bit being set. The pending bit makes the 4th IRQ arrive // after reaping a single cmd. LOG_NRM("Start reaping and validate %d IRQ's", anticipatedIrqs); for (int i = 0; i < NUM_CMDS_ISSUE; i++) { snprintf(work, sizeof(work), "cmd.%d", i); IO::ReapCE(iocq, 1, isrCount, mGrpName, mTestName, work); if (isrCount != anticipatedIrqs) { iocq->Dump( FileSystem::PrepDumpFile(mGrpName, mTestName, "acq", work), "Number of IRQ's changed while reaping"); throw FrmwkEx(HERE, "Anticipated %d IRQ's; but only see %d", anticipatedIrqs, isrCount); } // Now account for a new IRQ fired due to the pending bit being handled // by the DUT, but delay processing so that latency in handling this // extra IRQ is not the cause of a test failure. Rather make the // absence of the IRQ be the failure, thus delaying is OK. if (i == 0) { anticipatedIrqs++; sleep(1); } } }