/* $Id: DBGFR3FlowTrace.cpp 96407 2022-08-22 17:43:14Z vboxsync $ */ /** @file * DBGF - Debugger Facility, Guest Execution Flow Tracing. */ /* * Copyright (C) 2016-2022 Oracle and/or its affiliates. * * This file is part of VirtualBox base platform packages, as * available from https://www.virtualbox.org. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation, in version 3 of the * License. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . * * SPDX-License-Identifier: GPL-3.0-only */ /** @page pg_dbgf_flow DBGFR3FlowTrace - Flow Trace Interface * * @todo */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #define LOG_GROUP LOG_GROUP_DBGF #include #include "DBGFInternal.h" #include #include #include #include #include #include #include #include #include /********************************************************************************************************************************* * Defined Constants And Macros * *********************************************************************************************************************************/ /********************************************************************************************************************************* * Structures and Typedefs * *********************************************************************************************************************************/ /** Pointer to the internal trace module instance data. */ typedef struct DBGFFLOWTRACEMODINT *PDBGFFLOWTRACEMODINT; /** Pointer to a trace module probe location. */ typedef struct DBGFFLOWTRACEMODPROBELOC *PDBGFFLOWTRACEMODPROBELOC; /** * Internal probe instance data. */ typedef struct DBGFFLOWTRACEPROBEINT { /** External and internal references hold. */ volatile uint32_t cRefs; /** Trace modules referencing this probe. */ volatile uint32_t cRefsMod; /** The user mode VM handle. */ PUVM pUVM; /** Description of this probe. */ char *pszDescr; /** Overall memory consumed for this probe for each invocation. */ size_t cbProbe; /** Number of entries for this probe. */ uint32_t cEntries; /** Maximum number of entries the array can hold. */ uint32_t cEntriesMax; /** Pointer to the probe entry array. */ PDBGFFLOWTRACEPROBEENTRY paEntries; } DBGFFLOWTRACEPROBEINT; /** Pointer to the internal probe instance data. */ typedef DBGFFLOWTRACEPROBEINT *PDBGFFLOWTRACEPROBEINT; /** Pointer to a constant internal probe instance data. */ typedef const DBGFFLOWTRACEPROBEINT *PCDBGFFLOWTRACEPROBEINT; /** * Record collected for one probe hit. */ typedef struct DBGFFLOWTRACERECORDINT { /** Data list node. */ RTLISTNODE NdRecord; /** The probe instance the record was created for. */ PDBGFFLOWTRACEPROBEINT pProbe; /** The common probe instance data was collected for. */ PDBGFFLOWTRACEPROBEINT pProbeCmn; /** Address of the probe location. */ DBGFADDRESS AddrProbe; /** Reference counter. */ volatile uint32_t cRefs; /** CPU ID this data was collected on. */ VMCPUID idCpu; /** Sequence number for this data. */ uint64_t u64SeqNo; /** Timestamp in nanoseconds when the data was collected. */ uint64_t u64TsCollected; /** Pointer to the values for the common probe if available. */ PDBGFFLOWTRACEPROBEVAL paValCmn; /** The probe values collected - size defined * by the number of entries in the probe. */ DBGFFLOWTRACEPROBEVAL aVal[1]; } DBGFFLOWTRACERECORDINT; /** Pointer to one collected probe data. */ typedef DBGFFLOWTRACERECORDINT *PDBGFFLOWTRACERECORDINT; /** * Trace module state. */ typedef enum DBGFFLOWTRACEMODSTATE { /** Invalid state. */ DBGFFLOWTRACEMODSTATE_INVALID = 0, /** The module was created. */ DBGFFLOWTRACEMODSTATE_CREATED, /** The module is active, no probes can be added. */ DBGFFLOWTRACEMODSTATE_ENABLED, /** The VM is destroyed but there are still references to the module, * functionality is limited (query records only). */ DBGFFLOWTRACEMODSTATE_VM_DESTROYED, /** The trace module is destroyed. */ DBGFFLOWTRACEMODSTATE_DESTROYED, /** 32bit hack. */ DBGFFLOWTRACEMODSTATE_32BIT_HACK = 0x7fffffff } DBGFFLOWTRACEMODSTATE; /** * Internal trace module instance data. */ typedef struct DBGFFLOWTRACEMODINT { /** References hold for this trace module. */ volatile uint32_t cRefs; /** The user mode VM handle. */ PUVM pUVM; /** CPU ID the module is for. */ VMCPUID idCpu; /** The DBGF owner handle. */ DBGFBPOWNER hBpOwner; /** State of the trace module. */ volatile DBGFFLOWTRACEMODSTATE enmState; /** Next free sequence number. */ volatile uint64_t u64SeqNoNext; /** Optional ocmmon probe describing data to collect. */ PDBGFFLOWTRACEPROBEINT pProbeCmn; /** Flags whether to record only a limited amount of data as indicated * by cHitsLeft. */ bool fLimit; /** Number of hits left until the module is disabled automatically. */ volatile uint32_t cHitsLeft; /** Number of records to keep before evicting the oldest one. */ uint32_t cRecordsMax; /** Number of records collected in this module. */ volatile uint32_t cRecords; /** Number of probes in this trace module. */ uint32_t cProbes; /** List of probes active for this module - DBGFFLOWTRACEMODPROBELOC. */ RTLISTANCHOR LstProbes; /** List of collected data for this module. */ RTLISTANCHOR LstRecords; /** Semaphore protecting access to the probe and record list. */ RTSEMFASTMUTEX hMtx; } DBGFFLOWTRACEMODINT; /** Pointer to a const internal trace module instance data. */ typedef const DBGFFLOWTRACEMODINT *PCDBGFFLOWTRACEMODINT; /** * Trace module probe location data. */ typedef struct DBGFFLOWTRACEMODPROBELOC { /** List node for the list of probes. */ RTLISTNODE NdProbes; /** The owning trace module. */ PDBGFFLOWTRACEMODINT pTraceMod; /** The probe instance. */ PDBGFFLOWTRACEPROBEINT pProbe; /** Address of the probe location. */ DBGFADDRESS AddrProbe; /** The DBGF breakpoint handle. */ DBGFBP hBp; /** Flags controlling the collection behavior for the probe. */ uint32_t fFlags; } DBGFFLOWTRACEMODPROBELOC; /** * Flow trace report state. */ typedef struct DBGFFLOWTRACEREPORTINT { /** The user mode VM handle. */ PUVM pUVM; /** Reference count. */ volatile uint32_t cRefs; /** Number of records. */ uint32_t cRecords; /** Array with handle of records - variable in size. */ PDBGFFLOWTRACERECORDINT apRec[1]; } DBGFFLOWTRACEMODREPORTINT; /** Pointer to the internal flow trace report state. */ typedef DBGFFLOWTRACEREPORTINT *PDBGFFLOWTRACEREPORTINT; /********************************************************************************************************************************* * Internal Functions * *********************************************************************************************************************************/ /** * Creates a new trace record. * * @returns Pointer to the create flow trace record or NULL if out of memory. * @param pProbeLoc The probe location to allocate the record for. * @param idCpu The CPU ID this record was created for. * @param ppbBuf Where to store the pointer to the data buffer for this probe. * @param ppbBufCmn Where to store the pointer to the data buffer for the common probe * if available. */ static PDBGFFLOWTRACERECORDINT dbgfR3FlowTraceRecordCreate(PDBGFFLOWTRACEMODPROBELOC pProbeLoc, VMCPUID idCpu, uint8_t **ppbBuf, uint8_t **ppbBufCmn) { PDBGFFLOWTRACEMODINT pTraceMod = pProbeLoc->pTraceMod; PCDBGFFLOWTRACEPROBEINT pProbe = pProbeLoc->pProbe; PCDBGFFLOWTRACEPROBEINT pProbeCmn = pTraceMod->pProbeCmn; size_t cbProbeBuf = pProbe->cbProbe; if (pProbeCmn) cbProbeBuf += pProbeCmn->cbProbe; *ppbBuf = NULL; *ppbBufCmn = NULL; PDBGFFLOWTRACERECORDINT pRecord = (PDBGFFLOWTRACERECORDINT)MMR3HeapAllocZU(pTraceMod->pUVM, MM_TAG_DBGF_FLOWTRACE, sizeof(DBGFFLOWTRACERECORDINT) + cbProbeBuf); if (RT_LIKELY(pRecord)) { DBGFR3FlowTraceProbeRetain(pProbeLoc->pProbe); if (pProbeLoc->pTraceMod->pProbeCmn) DBGFR3FlowTraceProbeRetain(pProbeLoc->pTraceMod->pProbeCmn); pRecord->pProbe = pProbeLoc->pProbe; pRecord->pProbeCmn = pProbeLoc->pTraceMod->pProbeCmn; pRecord->AddrProbe = pProbeLoc->AddrProbe; pRecord->cRefs = 1; pRecord->idCpu = idCpu; pRecord->u64SeqNo = ASMAtomicIncU64(&pTraceMod->u64SeqNoNext); pRecord->u64TsCollected = RTTimeNanoTS(); pRecord->paValCmn = NULL; *ppbBuf = (uint8_t *)&pRecord->aVal[pProbe->cEntries]; if (pProbeCmn) { size_t offValCmn = pProbe->cbProbe - pProbe->cEntries * sizeof(DBGFFLOWTRACEPROBEVAL); pRecord->paValCmn = (PDBGFFLOWTRACEPROBEVAL)(*ppbBuf + offValCmn); *ppbBufCmn = (uint8_t *)&pRecord->paValCmn[pProbeCmn->cEntries]; } } return pRecord; } /** * Destroys the given record. * * @returns nothing. * @param pRecord The record to destroy. */ static void dbgfR3FlowTraceRecordDestroy(PDBGFFLOWTRACERECORDINT pRecord) { DBGFR3FlowTraceProbeRelease(pRecord->pProbe); pRecord->pProbe = NULL; MMR3HeapFree(pRecord); } /** * Creates a new flow trace report which can hold the given amount o records. * * @returns Pointer to the newly created report state or NULL if out of memory. * @param pUVM The usermode VM handle. * @param cRecords Number of records the report shoudld be able to hold. */ static PDBGFFLOWTRACEREPORTINT dbgfR3FlowTraceReportCreate(PUVM pUVM, uint32_t cRecords) { PDBGFFLOWTRACEREPORTINT pReport = (PDBGFFLOWTRACEREPORTINT)MMR3HeapAllocZU(pUVM, MM_TAG_DBGF_FLOWTRACE, RT_UOFFSETOF_DYN(DBGFFLOWTRACEREPORTINT, apRec[cRecords])); if (RT_LIKELY(pReport)) { pReport->pUVM = pUVM; pReport->cRefs = 1; pReport->cRecords = cRecords; } return pReport; } /** * Destroys the given report releasing all references hold to the containing records. * * @returns nothing. * @param pReport The report to destroy. */ static void dbgfR3FlowTraceReportDestroy(PDBGFFLOWTRACEREPORTINT pReport) { for (uint32_t i = 0; i < pReport->cRecords; i++) DBGFR3FlowTraceRecordRelease(pReport->apRec[i]); MMR3HeapFree(pReport); } /** * Queries the given register and returns the value as a guest pointer. * * @returns VBox status code. * @param pUVM The usermode VM handle. * @param idCpu VM CPU identifier. * @param pszReg The register name to query. * @param pGCPtr Where to store the register value on success. */ static int dbgfR3FlowTraceModProbeQueryRegAsGCPtr(PUVM pUVM, VMCPUID idCpu, const char *pszReg, PRTGCPTR pGCPtr) { DBGFREGVAL Val; DBGFREGVALTYPE enmValType; int rc = DBGFR3RegNmQuery(pUVM, idCpu, pszReg, &Val, &enmValType); if (RT_SUCCESS(rc)) { switch (enmValType) { case DBGFREGVALTYPE_U8: *pGCPtr = Val.u8; break; case DBGFREGVALTYPE_U16: *pGCPtr = Val.u16; break; case DBGFREGVALTYPE_U32: *pGCPtr = Val.u32; break; case DBGFREGVALTYPE_U64: *pGCPtr = Val.u64; break; case DBGFREGVALTYPE_U128: case DBGFREGVALTYPE_R80: case DBGFREGVALTYPE_DTR: default: rc = VERR_INVALID_PARAMETER; } } return rc; } /** * Resolves the guest address from an indirect memory probe entry. * * @returns VBox status code. * @param pUVM The usermode VM handle. * @param idCpu VM CPU identifier. * @param pEntry The probe entry. * @param pAddr Where to store the address on success. */ static int dbgfR3FlowTraceModProbeResolveIndirectAddr(PUVM pUVM, VMCPUID idCpu, PDBGFFLOWTRACEPROBEENTRY pEntry, PDBGFADDRESS pAddr) { Assert(pEntry->enmType == DBGFFLOWTRACEPROBEENTRYTYPE_INDIRECT_MEM); RTGCPTR GCPtrBase = 0; RTGCPTR GCPtrIndex = 0; int rc = dbgfR3FlowTraceModProbeQueryRegAsGCPtr(pUVM, idCpu, pEntry->Type.IndirectMem.RegBase.pszName, &GCPtrBase); if ( RT_SUCCESS(rc) && pEntry->Type.IndirectMem.RegIndex.pszName) rc = dbgfR3FlowTraceModProbeQueryRegAsGCPtr(pUVM, idCpu, pEntry->Type.IndirectMem.RegIndex.pszName, &GCPtrIndex); if (RT_SUCCESS(rc)) { RTGCPTR GCPtr = GCPtrBase + GCPtrIndex * pEntry->Type.IndirectMem.uScale; DBGFR3AddrFromFlat(pUVM, pAddr, GCPtr); if (pEntry->Type.IndirectMem.iOffset > 0) DBGFR3AddrAdd(pAddr, pEntry->Type.IndirectMem.iOffset); else if (pEntry->Type.IndirectMem.iOffset < 0) DBGFR3AddrSub(pAddr, -pEntry->Type.IndirectMem.iOffset); } return rc; } /** * Destroys the given flow trace module freeing all allocated resources. * * @returns nothing. * @param pThis The flow trace module instance data. */ static void dbgfR3FlowTraceModDestroy(PDBGFFLOWTRACEMODINT pThis) { if (ASMAtomicReadU32((volatile uint32_t *)&pThis->enmState) == DBGFFLOWTRACEMODSTATE_ENABLED) { int rc = DBGFR3FlowTraceModDisable(pThis); AssertRC(rc); } Assert( pThis->enmState == DBGFFLOWTRACEMODSTATE_CREATED || pThis->enmState == DBGFFLOWTRACEMODSTATE_VM_DESTROYED); /* Do the cleanup under the semaphore. */ RTSemFastMutexRequest(pThis->hMtx); if (pThis->pProbeCmn) DBGFR3FlowTraceProbeRelease(pThis->pProbeCmn); PDBGFFLOWTRACEMODPROBELOC pIt, pItNext; RTListForEachSafe(&pThis->LstProbes, pIt, pItNext, DBGFFLOWTRACEMODPROBELOC, NdProbes) { RTListNodeRemove(&pIt->NdProbes); ASMAtomicDecU32(&pIt->pProbe->cRefsMod); DBGFR3FlowTraceProbeRelease(pIt->pProbe); MMR3HeapFree(pIt); } PDBGFFLOWTRACERECORDINT pRecIt, pRecItNext; RTListForEachSafe(&pThis->LstRecords, pRecIt, pRecItNext, DBGFFLOWTRACERECORDINT, NdRecord) { RTListNodeRemove(&pRecIt->NdRecord); DBGFR3FlowTraceRecordRelease(pRecIt); } DBGFR3BpOwnerDestroy(pThis->pUVM, pThis->hBpOwner); RTSemFastMutexRelease(pThis->hMtx); RTSemFastMutexDestroy(pThis->hMtx); MMR3HeapFree(pThis); } /** * Checks whether the given basic block and address intersect. * * @returns true if they intersect, false otherwise. * @param pAddr The address to check for. * @param pAddrStart The start address. * @param pAddrLast The last address. */ static bool dbgfR3FlowTraceAddrIntersect(PDBGFADDRESS pAddr, PDBGFADDRESS pAddrStart, PDBGFADDRESS pAddrLast) { return (pAddrStart->Sel == pAddr->Sel) && (pAddrStart->off <= pAddr->off) && (pAddrLast->off >= pAddr->off); } /** * Matches a single value against a given filter value. * * @returns Flag whether the value matches against the single value. * @param pVal The value to match. * @param pValFilter The value filter to match against. */ static bool dbgfR3FlowTraceRecordMatchSingleValue(PCDBGFFLOWTRACEPROBEVAL pVal, PCDBGFFLOWTRACEPROBEVAL pValFilter) { if (pVal->pProbeEntry->enmType != pValFilter->pProbeEntry->enmType) return false; switch (pVal->pProbeEntry->enmType) { case DBGFFLOWTRACEPROBEENTRYTYPE_REG: { if (pVal->Type.Reg.enmType != pValFilter->Type.Reg.enmType) return false; if (strcmp(pVal->Type.Reg.pszName, pValFilter->Type.Reg.pszName)) return false; switch (pVal->Type.Reg.enmType) { case DBGFREGVALTYPE_U8: if (pVal->Type.Reg.Val.u8 != pValFilter->Type.Reg.Val.u8) return false; break; case DBGFREGVALTYPE_U16: if (pVal->Type.Reg.Val.u16 != pValFilter->Type.Reg.Val.u16) return false; break; case DBGFREGVALTYPE_U32: if (pVal->Type.Reg.Val.u32 != pValFilter->Type.Reg.Val.u32) return false; break; case DBGFREGVALTYPE_U64: if (pVal->Type.Reg.Val.u64 != pValFilter->Type.Reg.Val.u64) return false; break; case DBGFREGVALTYPE_U128: if (memcmp(&pVal->Type.Reg.Val.u128, &pValFilter->Type.Reg.Val.u128, sizeof(RTUINT128U))) return false; break; case DBGFREGVALTYPE_R80: if (memcmp(&pVal->Type.Reg.Val.r80Ex, &pValFilter->Type.Reg.Val.r80Ex, sizeof(RTFLOAT80U2))) return false; break; case DBGFREGVALTYPE_DTR: if ( pVal->Type.Reg.Val.dtr.u64Base != pValFilter->Type.Reg.Val.dtr.u64Base || pVal->Type.Reg.Val.dtr.u32Limit != pValFilter->Type.Reg.Val.dtr.u32Limit) return false; break; default: AssertFailed(); return false; } break; } case DBGFFLOWTRACEPROBEENTRYTYPE_CONST_MEM: case DBGFFLOWTRACEPROBEENTRYTYPE_INDIRECT_MEM: if ( memcmp(&pVal->Type.Mem.Addr, &pValFilter->Type.Mem.Addr, sizeof(DBGFADDRESS)) || pVal->Type.Mem.cbBuf != pValFilter->Type.Mem.cbBuf || memcmp(pVal->Type.Mem.pvBuf, pValFilter->Type.Mem.pvBuf, pValFilter->Type.Mem.cbBuf)) return false; break; default: AssertFailed(); return false; } return true; } /** * Matches the given values against the filter values returning a flag whether they match. * * @returns Flag whether the given values match the filter. * @param paVal Pointer to the array of values. * @param cVals Number of values in the array. * @param paValFilter Pointer to the filter values. * @param cValsFilter Number of entries in the filter values. */ static bool dbgfR3FlowTraceRecordMatchValues(PCDBGFFLOWTRACEPROBEVAL paVal, uint32_t cVals, PCDBGFFLOWTRACEPROBEVAL paValFilter, uint32_t cValsFilter) { bool fMatch = false; /* * The order in which the filters and values are doesn't need to match but for every filter * there should be at least one entry matching. */ while ( cValsFilter-- > 0 && fMatch) { for (uint32_t i = 0; i < cVals; i++) { fMatch = dbgfR3FlowTraceRecordMatchSingleValue(&paVal[i], paValFilter); if (fMatch) break; } paValFilter++; } return fMatch; } /** * Checks the given record against the given filter, returning whether the filter * matches. * * @returns Flag whether the record matches the given filter. * @param pRecord The record to check. * @param pFilter The filter to check against. */ static bool dbgfR3FlowTraceRecordMatchSingleFilter(PDBGFFLOWTRACERECORDINT pRecord, PDBGFFLOWTRACEREPORTFILTER pFilter) { bool fMatch = false; switch (pFilter->enmType) { case DBGFFLOWTRACEREPORTFILTERTYPE_SEQ_NUM: { if ( pRecord->u64SeqNo >= pFilter->Type.SeqNo.u64SeqNoFirst && pRecord->u64SeqNo <= pFilter->Type.SeqNo.u64SeqNoLast) fMatch = true; break; } case DBGFFLOWTRACEREPORTFILTERTYPE_TIMESTAMP: { if ( pRecord->u64TsCollected >= pFilter->Type.Timestamp.u64TsFirst && pRecord->u64TsCollected <= pFilter->Type.Timestamp.u64TsLast) fMatch = true; break; } case DBGFFLOWTRACEREPORTFILTERTYPE_ADDR: { if (dbgfR3FlowTraceAddrIntersect(&pRecord->AddrProbe, &pFilter->Type.Addr.AddrStart, &pFilter->Type.Addr.AddrLast)) fMatch = true; break; } case DBGFFLOWTRACEREPORTFILTERTYPE_VMCPU_ID: { if ( pRecord->idCpu >= pFilter->Type.VCpuId.idCpuStart && pRecord->idCpu <= pFilter->Type.VCpuId.idCpuLast) fMatch = true; break; } case DBGFFLOWTRACEREPORTFILTERTYPE_PROBE_DATA: { if (pFilter->Type.ProbeData.fValCmn) { if (pRecord->paValCmn) { PCDBGFFLOWTRACEPROBEINT pProbeCmn = pRecord->pProbeCmn; AssertPtr(pProbeCmn); fMatch = dbgfR3FlowTraceRecordMatchValues(pRecord->paValCmn, pProbeCmn->cEntries, pFilter->Type.ProbeData.paVal, pFilter->Type.ProbeData.cVals); } } else fMatch = dbgfR3FlowTraceRecordMatchValues(&pRecord->aVal[0], pRecord->pProbe->cEntries, pFilter->Type.ProbeData.paVal, pFilter->Type.ProbeData.cVals); break; } default: AssertMsgFailed(("Invalid filter type %u!\n", pFilter->enmType)); } return fMatch; } /** * Checks the given record against the given filters. * * @returns Flag whether the record matches the filters. * @param pRecord The record to check. * @param paFilters Array of filters to check. * @param cFilters Number of filters in the array. * @param enmOp How the record should match against the filters. */ static bool dbgfR3FlowTraceDoesRecordMatchFilter(PDBGFFLOWTRACERECORDINT pRecord, PDBGFFLOWTRACEREPORTFILTER paFilters, uint32_t cFilters, DBGFFLOWTRACEREPORTFILTEROP enmOp) { bool fMatch = false; if (enmOp == DBGFFLOWTRACEREPORTFILTEROP_AND) { fMatch = true; while (cFilters-- > 0) { if (!dbgfR3FlowTraceRecordMatchSingleFilter(pRecord, &paFilters[cFilters])) { fMatch = false; break; } } } else if (enmOp == DBGFFLOWTRACEREPORTFILTEROP_OR) { while (cFilters-- > 0) { if (dbgfR3FlowTraceRecordMatchSingleFilter(pRecord, &paFilters[cFilters])) { fMatch = true; break; } } } else AssertMsgFailed(("Invalid filter operation %u!\n", enmOp)); return fMatch; } /** * Collects all the data specified in the given probe. * * @returns Flag whether to enter the debugger. * @param pUVM The user mode VM handle. * @param idCpu The virtual CPU ID. * @param pTraceMod The trace module instance. * @param pAddrProbe Location of the probe, NULL if a common probe. * @param pProbe The probe instance. * @param pVal Pointer to the array of values to fill. * @param pbBuf Poitner to the memory buffer holding additional data. */ static bool dbgfR3FlowTraceModProbeCollectData(PUVM pUVM, VMCPUID idCpu, PDBGFFLOWTRACEMODINT pTraceMod, PCDBGFADDRESS pAddrProbe, PDBGFFLOWTRACEPROBEINT pProbe, PDBGFFLOWTRACEPROBEVAL pVal, uint8_t *pbBuf) { bool fDbgDefer = false; for (uint32_t i = 0; i < pProbe->cEntries; i++) { int rc; PDBGFFLOWTRACEPROBEENTRY pEntry = &pProbe->paEntries[i]; pVal->pProbeEntry = pEntry; switch (pEntry->enmType) { case DBGFFLOWTRACEPROBEENTRYTYPE_REG: rc = DBGFR3RegNmQuery(pUVM, idCpu, pEntry->Type.Reg.pszName, &pVal->Type.Reg.Val, &pVal->Type.Reg.enmType); AssertRC(rc); pVal->Type.Reg.pszName = pEntry->Type.Reg.pszName; break; case DBGFFLOWTRACEPROBEENTRYTYPE_INDIRECT_MEM: { DBGFADDRESS Addr; rc = dbgfR3FlowTraceModProbeResolveIndirectAddr(pUVM, idCpu, pEntry, &Addr); if (RT_SUCCESS(rc)) { pVal->Type.Mem.pvBuf = pbBuf; pVal->Type.Mem.cbBuf = pEntry->Type.IndirectMem.cbMem; pVal->Type.Mem.Addr = Addr; rc = DBGFR3MemRead(pUVM, idCpu, &pVal->Type.Mem.Addr, pbBuf, pVal->Type.Mem.cbBuf); AssertRC(rc); pbBuf += pVal->Type.Mem.cbBuf; } break; } case DBGFFLOWTRACEPROBEENTRYTYPE_CONST_MEM: pVal->Type.Mem.pvBuf = pbBuf; pVal->Type.Mem.cbBuf = pEntry->Type.ConstMem.cbMem; pVal->Type.Mem.Addr = pEntry->Type.ConstMem.AddrMem; rc = DBGFR3MemRead(pUVM, idCpu, &pVal->Type.Mem.Addr, pbBuf, pVal->Type.Mem.cbBuf); AssertRC(rc); pbBuf += pVal->Type.Mem.cbBuf; break; case DBGFFLOWTRACEPROBEENTRYTYPE_CALLBACK: rc = pEntry->Type.Callback.pfnCallback(pUVM, idCpu, pTraceMod, pAddrProbe, pProbe, pEntry, pEntry->Type.Callback.pvUser); break; case DBGFFLOWTRACEPROBEENTRYTYPE_DEBUGGER: fDbgDefer = true; break; default: AssertFailed(); } pVal++; } return fDbgDefer; } /** * @callback_method_impl{FNDBGFBPHIT} */ static DECLCALLBACK(VBOXSTRICTRC) dbgfR3FlowTraceModProbeFiredWorker(PVM pVM, VMCPUID idCpu, void *pvUserBp, DBGFBP hBp, PCDBGFBPPUB pBpPub, uint16_t fFlags) { RT_NOREF(pVM, hBp, pBpPub, fFlags); LogFlowFunc(("pVM=%#p idCpu=%u pvUserBp=%#p hBp=%#x pBpPub=%p\n", pVM, idCpu, pvUserBp, hBp, pBpPub)); PDBGFFLOWTRACEMODPROBELOC pProbeLoc = (PDBGFFLOWTRACEMODPROBELOC)pvUserBp; PDBGFFLOWTRACEPROBEINT pProbe = pProbeLoc->pProbe; PDBGFFLOWTRACEMODINT pTraceMod = pProbeLoc->pTraceMod; bool fDisabledModule = false; bool fDbgDefer = false; /* Check whether the trace module is still active and we are tracing the correct VCPU. */ if (ASMAtomicReadU32((volatile uint32_t *)&pTraceMod->enmState) != DBGFFLOWTRACEMODSTATE_ENABLED || ( idCpu != pTraceMod->idCpu && pTraceMod->idCpu != VMCPUID_ANY)) return VINF_SUCCESS; if ( pTraceMod->fLimit && ASMAtomicReadU32(&pTraceMod->cHitsLeft)) { uint32_t cHitsLeftNew = ASMAtomicDecU32(&pTraceMod->cHitsLeft); if (cHitsLeftNew > cHitsLeftNew + 1) /* Underflow => reached the limit. */ { ASMAtomicIncU32(&pTraceMod->cHitsLeft); return VINF_SUCCESS; } if (!cHitsLeftNew) { /* We got the last record, disable the trace module. */ fDisabledModule = ASMAtomicCmpXchgU32((volatile uint32_t *)&pTraceMod->enmState, DBGFFLOWTRACEMODSTATE_CREATED, DBGFFLOWTRACEMODSTATE_ENABLED); } } uint8_t *pbBuf = NULL; uint8_t *pbBufCmn = NULL; PDBGFFLOWTRACERECORDINT pRecord = dbgfR3FlowTraceRecordCreate(pProbeLoc, idCpu, &pbBuf, &pbBufCmn); if (pRecord) { fDbgDefer = dbgfR3FlowTraceModProbeCollectData(pTraceMod->pUVM, idCpu, pTraceMod, &pProbeLoc->AddrProbe, pProbe, &pRecord->aVal[0], pbBuf); if (pTraceMod->pProbeCmn) fDbgDefer = dbgfR3FlowTraceModProbeCollectData(pTraceMod->pUVM, idCpu, pTraceMod, NULL, pTraceMod->pProbeCmn, pRecord->paValCmn, pbBufCmn); RTSemFastMutexRequest(pTraceMod->hMtx); uint32_t cRecordsNew = ASMAtomicIncU32(&pTraceMod->cRecords); RTListAppend(&pTraceMod->LstRecords, &pRecord->NdRecord); if ( (cRecordsNew > pTraceMod->cRecordsMax) && pTraceMod->cRecordsMax > 0) { /* Get the first record and destroy it. */ pRecord = RTListRemoveFirst(&pTraceMod->LstRecords, DBGFFLOWTRACERECORDINT, NdRecord); AssertPtr(pRecord); DBGFR3FlowTraceRecordRelease(pRecord); ASMAtomicDecU32(&pTraceMod->cRecords); } RTSemFastMutexRelease(pTraceMod->hMtx); } if (fDisabledModule) { int rc = DBGFR3FlowTraceModDisable(pTraceMod); AssertRC(rc); } return fDbgDefer ? VINF_DBGF_BP_HALT : VINF_SUCCESS; } /** * Worker for DBGFR3FlowTraceModEnable(), doing the work in an EMT rendezvous point to * ensure no probe is hit in an inconsistent state. * * @returns Strict VBox status code. * @param pVM The VM instance data. * @param pVCpu The virtual CPU we execute on. * @param pvUser Opaque user data. */ static DECLCALLBACK(VBOXSTRICTRC) dbgfR3FlowTraceModEnableWorker(PVM pVM, PVMCPU pVCpu, void *pvUser) { RT_NOREF2(pVM, pVCpu); PDBGFFLOWTRACEMODINT pThis = (PDBGFFLOWTRACEMODINT)pvUser; PDBGFFLOWTRACEMODPROBELOC pProbeLoc = NULL; int rc = VINF_SUCCESS; pThis->enmState = DBGFFLOWTRACEMODSTATE_ENABLED; RTListForEach(&pThis->LstProbes, pProbeLoc, DBGFFLOWTRACEMODPROBELOC, NdProbes) { uint16_t fBpFlags = DBGF_BP_F_ENABLED; if (pProbeLoc->fFlags & DBGF_FLOW_TRACE_PROBE_ADD_F_BEFORE_EXEC) fBpFlags |= DBGF_BP_F_HIT_EXEC_BEFORE; if (pProbeLoc->fFlags & DBGF_FLOW_TRACE_PROBE_ADD_F_AFTER_EXEC) fBpFlags |= DBGF_BP_F_HIT_EXEC_AFTER; rc = DBGFR3BpSetInt3Ex(pThis->pUVM, pThis->hBpOwner, pProbeLoc, 0 /*idSrcCpu*/, &pProbeLoc->AddrProbe, fBpFlags, 0 /*iHitTrigger*/, ~0ULL /*iHitDisable*/, &pProbeLoc->hBp); if (RT_FAILURE(rc)) break; } if (RT_FAILURE(rc)) pThis->enmState = DBGFFLOWTRACEMODSTATE_CREATED; return rc; } /** * Worker for DBGFR3FlowTraceModDisable(), doing the work in an EMT rendezvous point to * ensure no probe is hit in an inconsistent state. * * @returns Struct VBox status code. * @param pVM The VM instance data. * @param pVCpu The virtual CPU we execute on. * @param pvUser Opaque user data. */ static DECLCALLBACK(VBOXSTRICTRC) dbgfR3FlowTraceModDisableWorker(PVM pVM, PVMCPU pVCpu, void *pvUser) { RT_NOREF2(pVM, pVCpu); PDBGFFLOWTRACEMODINT pThis = (PDBGFFLOWTRACEMODINT)pvUser; PDBGFFLOWTRACEMODPROBELOC pProbeLoc = NULL; int rc = VINF_SUCCESS; pThis->enmState = DBGFFLOWTRACEMODSTATE_CREATED; RTListForEach(&pThis->LstProbes, pProbeLoc, DBGFFLOWTRACEMODPROBELOC, NdProbes) { rc = DBGFR3BpClear(pThis->pUVM, pProbeLoc->hBp); AssertRC(rc); } return rc; } /** * Checks whether both addresses are equal. * * @returns true if both addresses point to the same location, false otherwise. * @param pAddr1 First address. * @param pAddr2 Second address. */ static bool dbgfR3FlowTraceAddrEqual(PCDBGFADDRESS pAddr1, PCDBGFADDRESS pAddr2) { return pAddr1->Sel == pAddr2->Sel && pAddr1->off == pAddr2->off; } /** * Returns the probe location pointer at the given address for the given trace module. * * @returns Pointer to the probe location or NULL if there is no probe at the given location. * @param pThis The flow trace module instance data. * @param pAddrProbe Address of the probe to check. */ static PDBGFFLOWTRACEMODPROBELOC dbgfR3TraceModGetProbeLocAtAddr(PDBGFFLOWTRACEMODINT pThis, PCDBGFADDRESS pAddrProbe) { RTSemFastMutexRequest(pThis->hMtx); PDBGFFLOWTRACEMODPROBELOC pIt; RTListForEach(&pThis->LstProbes, pIt, DBGFFLOWTRACEMODPROBELOC, NdProbes) { if (dbgfR3FlowTraceAddrEqual(&pIt->AddrProbe, pAddrProbe)) { RTSemFastMutexRelease(pThis->hMtx); return pIt; } } RTSemFastMutexRelease(pThis->hMtx); return NULL; } /** * Cleans up any allocated resources for each entry in the given probe for the given range. * * @returns nothing. * @param pProbe The probe instance. * @param idxStart Start index to clean up. * @param cEntries How many entries to clean up. */ static void dbgfR3ProbeEntryCleanup(PDBGFFLOWTRACEPROBEINT pProbe, uint32_t idxStart, uint32_t cEntries) { AssertReturnVoid(pProbe->cEntriesMax >= idxStart + cEntries); for (uint32_t i = idxStart; i < idxStart + cEntries; i++) { PDBGFFLOWTRACEPROBEENTRY pEntry = &pProbe->paEntries[i]; switch (pEntry->enmType) { case DBGFFLOWTRACEPROBEENTRYTYPE_REG: if (pEntry->Type.Reg.pszName) MMR3HeapFree((void *)pEntry->Type.Reg.pszName); pEntry->Type.Reg.pszName = NULL; break; case DBGFFLOWTRACEPROBEENTRYTYPE_CONST_MEM: pEntry->Type.ConstMem.cbMem = 0; break; case DBGFFLOWTRACEPROBEENTRYTYPE_INDIRECT_MEM: pEntry->Type.IndirectMem.uScale = 0; pEntry->Type.IndirectMem.cbMem = 0; if (pEntry->Type.IndirectMem.RegBase.pszName) MMR3HeapFree((void *)pEntry->Type.IndirectMem.RegBase.pszName); if (pEntry->Type.IndirectMem.RegIndex.pszName) MMR3HeapFree((void *)pEntry->Type.IndirectMem.RegIndex.pszName); pEntry->Type.IndirectMem.RegBase.pszName = NULL; pEntry->Type.IndirectMem.RegIndex.pszName = NULL; break; case DBGFFLOWTRACEPROBEENTRYTYPE_CALLBACK: pEntry->Type.Callback.pfnCallback = NULL; pEntry->Type.Callback.pvUser = NULL; break; case DBGFFLOWTRACEPROBEENTRYTYPE_DEBUGGER: break; default: AssertFailed(); } } } /** * Destroys the given flow trace probe freeing all allocated resources. * * @returns nothing. * @param pProbe The flow trace probe instance data. */ static void dbgfR3FlowTraceProbeDestroy(PDBGFFLOWTRACEPROBEINT pProbe) { dbgfR3ProbeEntryCleanup(pProbe, 0, pProbe->cEntries); MMR3HeapFree(pProbe->paEntries); MMR3HeapFree(pProbe); } /** * Ensures that the given probe has the given amount of additional entries available, * increasing the size if necessary. * * @returns VBox status code. * @retval VERR_NO_MEMORY if increasing the size failed due to an out of memory condition. * @param pProbe The probe insatnce. * @param cEntriesAdd Number of additional entries required. */ static int dbgfR3ProbeEnsureSize(PDBGFFLOWTRACEPROBEINT pProbe, uint32_t cEntriesAdd) { uint32_t cEntriesNew = pProbe->cEntries + cEntriesAdd; int rc = VINF_SUCCESS; if (pProbe->cEntriesMax < cEntriesNew) { PDBGFFLOWTRACEPROBEENTRY paEntriesNew; if (!pProbe->cEntriesMax) paEntriesNew = (PDBGFFLOWTRACEPROBEENTRY)MMR3HeapAllocZU(pProbe->pUVM, MM_TAG_DBGF_FLOWTRACE, cEntriesNew * sizeof(DBGFFLOWTRACEPROBEENTRY)); else paEntriesNew = (PDBGFFLOWTRACEPROBEENTRY)MMR3HeapRealloc(pProbe->paEntries, cEntriesNew * sizeof(DBGFFLOWTRACEPROBEENTRY)); if (RT_LIKELY(paEntriesNew)) { pProbe->paEntries = paEntriesNew; pProbe->cEntriesMax = cEntriesNew; } else rc = VERR_NO_MEMORY; } return rc; } /** * Duplicates a probe registry entry. * @returns VBox status code. * @param pUVM The usermode VM handle. * @param pDst Where to copy the entry to. * @param pSrc What to copy. */ static int dbgfR3ProbeEntryRegDup(PUVM pUVM, PDBGFFLOWTRACEPROBEENTRYREG pDst, PCDBGFFLOWTRACEPROBEENTRYREG pSrc) { int rc = VINF_SUCCESS; pDst->enmType = pSrc->enmType; pDst->pszName = MMR3HeapStrDupU(pUVM, MM_TAG_DBGF_FLOWTRACE, pSrc->pszName); if (!pDst->pszName) rc = VERR_NO_MEMORY; return rc; } /** * Duplicates a given probe entry in the given destination doing a deep copy (strings are duplicated). * * @returns VBox status code. * @param pUVM The usermode VM handle. * @param pDst Where to copy the entry to. * @param pSrc What to copy. */ static int dbgfR3ProbeEntryDup(PUVM pUVM, PDBGFFLOWTRACEPROBEENTRY pDst, PCDBGFFLOWTRACEPROBEENTRY pSrc) { int rc = VINF_SUCCESS; pDst->enmType = pSrc->enmType; pDst->pszDesc = NULL; if (pSrc->pszDesc) { pDst->pszDesc = MMR3HeapStrDupU(pUVM, MM_TAG_DBGF_FLOWTRACE, pSrc->pszDesc); if (!pDst->pszDesc) rc = VERR_NO_MEMORY; } if (RT_SUCCESS(rc)) { switch (pDst->enmType) { case DBGFFLOWTRACEPROBEENTRYTYPE_REG: rc = dbgfR3ProbeEntryRegDup(pUVM, &pDst->Type.Reg, &pSrc->Type.Reg); break; case DBGFFLOWTRACEPROBEENTRYTYPE_CONST_MEM: pDst->Type.ConstMem.AddrMem = pSrc->Type.ConstMem.AddrMem; pDst->Type.ConstMem.cbMem = pSrc->Type.ConstMem.cbMem; break; case DBGFFLOWTRACEPROBEENTRYTYPE_INDIRECT_MEM: pDst->Type.IndirectMem.uScale = pSrc->Type.IndirectMem.uScale; pDst->Type.IndirectMem.cbMem = pSrc->Type.IndirectMem.cbMem; pDst->Type.IndirectMem.iOffset = pSrc->Type.IndirectMem.iOffset; rc = dbgfR3ProbeEntryRegDup(pUVM, &pDst->Type.IndirectMem.RegBase, &pSrc->Type.IndirectMem.RegBase); if ( RT_SUCCESS(rc) && pDst->Type.IndirectMem.RegIndex.pszName) { rc = dbgfR3ProbeEntryRegDup(pUVM, &pDst->Type.IndirectMem.RegIndex, &pSrc->Type.IndirectMem.RegIndex); if (RT_FAILURE(rc)) MMR3HeapFree((void *)pDst->Type.IndirectMem.RegBase.pszName); } break; case DBGFFLOWTRACEPROBEENTRYTYPE_CALLBACK: pDst->Type.Callback.pfnCallback = pSrc->Type.Callback.pfnCallback; pDst->Type.Callback.pvUser = pSrc->Type.Callback.pvUser; break; case DBGFFLOWTRACEPROBEENTRYTYPE_DEBUGGER: break; default: rc = VERR_INVALID_PARAMETER; } } if ( RT_FAILURE(rc) && pDst->pszDesc) { MMR3HeapFree((void *)pDst->pszDesc); pDst->pszDesc = NULL; } return rc; } /** * Recalculates the size occupied by the data of this probe for each invocation. * * @returns nothing. * @param pProbe The probe instance. */ static void dbgfR3ProbeRecalcSize(PDBGFFLOWTRACEPROBEINT pProbe) { size_t cbProbe = 0; for (uint32_t i = 0; i < pProbe->cEntries; i++) { PDBGFFLOWTRACEPROBEENTRY pEntry = &pProbe->paEntries[i]; cbProbe += sizeof(DBGFFLOWTRACEPROBEVAL); switch (pEntry->enmType) { case DBGFFLOWTRACEPROBEENTRYTYPE_CONST_MEM: cbProbe += pEntry->Type.ConstMem.cbMem; break; case DBGFFLOWTRACEPROBEENTRYTYPE_INDIRECT_MEM: cbProbe += pEntry->Type.IndirectMem.cbMem; break; case DBGFFLOWTRACEPROBEENTRYTYPE_CALLBACK: case DBGFFLOWTRACEPROBEENTRYTYPE_REG: case DBGFFLOWTRACEPROBEENTRYTYPE_DEBUGGER: break; default: AssertFailed(); } } pProbe->cbProbe = cbProbe; } /** * Creates a new empty flow trace module. * * @returns VBox status code. * @param pUVM The usermode VM handle. * @param idCpu CPU ID the module is for, use VMCPUID_ANY for any CPU. * @param hFlowTraceProbeCommon Optional probe handle of data to capture regardless of the actual * probe. * @param phFlowTraceMod Where to store the handle to the created module on success. */ VMMR3DECL(int) DBGFR3FlowTraceModCreate(PUVM pUVM, VMCPUID idCpu, DBGFFLOWTRACEPROBE hFlowTraceProbeCommon, PDBGFFLOWTRACEMOD phFlowTraceMod) { int rc = VINF_SUCCESS; PDBGFFLOWTRACEMODINT pThis = (PDBGFFLOWTRACEMODINT)MMR3HeapAllocZU(pUVM, MM_TAG_DBGF_FLOWTRACE, sizeof(DBGFFLOWTRACEMODINT)); if (RT_LIKELY(pThis)) { pThis->cRefs = 1; pThis->pUVM = pUVM; pThis->idCpu = idCpu; pThis->enmState = DBGFFLOWTRACEMODSTATE_CREATED; pThis->u64SeqNoNext = 0; pThis->cHitsLeft = 0; pThis->cRecordsMax = 0; pThis->cRecords = 0; pThis->cProbes = 0; RTListInit(&pThis->LstProbes); RTListInit(&pThis->LstRecords); rc = RTSemFastMutexCreate(&pThis->hMtx); if (RT_SUCCESS(rc)) { rc = DBGFR3BpOwnerCreate(pUVM, dbgfR3FlowTraceModProbeFiredWorker, NULL /*pfnBpIoHit*/, &pThis->hBpOwner); if (RT_SUCCESS(rc)) { PDBGFFLOWTRACEPROBEINT pProbe = hFlowTraceProbeCommon; if (pProbe) { DBGFR3FlowTraceProbeRetain(pProbe); pThis->pProbeCmn = pProbe; } } *phFlowTraceMod = pThis; } if (RT_FAILURE(rc)) MMR3HeapFree(pThis); } else rc = VERR_NO_MEMORY; return rc; } /** * Create a new flow trace module from the given control flow graph adding the given probes * at the entries, exits and branches. * * @returns VBox status code. * @param pUVM The usermode VM handle. * @param idCpu CPU ID the module is for, use VMCPUID_ANY for any CPU. * @param hFlow Control flow graph handle to use. * @param hFlowTraceProbeCommon Optional probe handle of data to capture regardless of the actual * probe. * @param hFlowTraceProbeEntry Probe handle to use for all entry blocks. * @param hFlowTraceProbeRegular Probe handle to use for all branches. * @param hFlowTraceProbeExit Probe handle to use for all exits. * @param phFlowTraceMod Where to store the handle to the created module on success. */ VMMR3DECL(int) DBGFR3FlowTraceModCreateFromFlowGraph(PUVM pUVM, VMCPUID idCpu, DBGFFLOW hFlow, DBGFFLOWTRACEPROBE hFlowTraceProbeCommon, DBGFFLOWTRACEPROBE hFlowTraceProbeEntry, DBGFFLOWTRACEPROBE hFlowTraceProbeRegular, DBGFFLOWTRACEPROBE hFlowTraceProbeExit, PDBGFFLOWTRACEMOD phFlowTraceMod) { DBGFFLOWIT hFlowIt; int rc = DBGFR3FlowItCreate(hFlow, DBGFFLOWITORDER_BY_ADDR_LOWEST_FIRST, &hFlowIt); if (RT_SUCCESS(rc)) { DBGFFLOWTRACEMOD hFlowTraceMod; rc = DBGFR3FlowTraceModCreate(pUVM, idCpu, hFlowTraceProbeCommon, &hFlowTraceMod); if (RT_SUCCESS(rc)) { DBGFFLOWBB hFlowBb = DBGFR3FlowItNext(hFlowIt); while (hFlowBb && RT_SUCCESS(rc)) { uint32_t fFlags = DBGFR3FlowBbGetFlags(hFlowBb); if (!(fFlags & (DBGF_FLOW_BB_F_EMPTY | DBGF_FLOW_BB_F_INCOMPLETE_ERR))) { DBGFADDRESS AddrInstr; if (fFlags & DBGF_FLOW_BB_F_ENTRY) { rc = DBGFR3FlowBbQueryInstr(hFlowBb, 0, &AddrInstr, NULL, NULL); AssertRC(rc); rc = DBGFR3FlowTraceModAddProbe(hFlowTraceMod, &AddrInstr, hFlowTraceProbeEntry, DBGF_FLOW_TRACE_PROBE_ADD_F_BEFORE_EXEC); } else { DBGFFLOWBBENDTYPE enmType = DBGFR3FlowBbGetType(hFlowBb); uint32_t cInstr = enmType == DBGFFLOWBBENDTYPE_EXIT ? DBGFR3FlowBbGetInstrCount(hFlowBb) - 1 : 0; rc = DBGFR3FlowBbQueryInstr(hFlowBb, cInstr, &AddrInstr, NULL, NULL); if (RT_SUCCESS(rc)) { if (enmType == DBGFFLOWBBENDTYPE_EXIT) rc = DBGFR3FlowTraceModAddProbe(hFlowTraceMod, &AddrInstr, hFlowTraceProbeExit, DBGF_FLOW_TRACE_PROBE_ADD_F_AFTER_EXEC); else rc = DBGFR3FlowTraceModAddProbe(hFlowTraceMod, &AddrInstr, hFlowTraceProbeRegular, DBGF_FLOW_TRACE_PROBE_ADD_F_BEFORE_EXEC); } } } hFlowBb = DBGFR3FlowItNext(hFlowIt); } if (RT_FAILURE(rc)) DBGFR3FlowTraceModRelease(hFlowTraceMod); else *phFlowTraceMod = hFlowTraceMod; } DBGFR3FlowItDestroy(hFlowIt); } return rc; } /** * Retain a reference to the given flow trace module. * * @returns New reference count. * @param hFlowTraceMod Flow trace module handle. */ VMMR3DECL(uint32_t) DBGFR3FlowTraceModRetain(DBGFFLOWTRACEMOD hFlowTraceMod) { PDBGFFLOWTRACEMODINT pThis = hFlowTraceMod; AssertPtrReturn(pThis, UINT32_MAX); uint32_t cRefs = ASMAtomicIncU32(&pThis->cRefs); AssertMsg(cRefs > 1 && cRefs < _1M, ("%#x %p\n", cRefs, pThis)); return cRefs; } /** * Release a reference of the given flow trace module. * * @returns New reference count, on 0 the module is destroyed and all containing records * are deleted. * @param hFlowTraceMod Flow trace module handle. */ VMMR3DECL(uint32_t) DBGFR3FlowTraceModRelease(DBGFFLOWTRACEMOD hFlowTraceMod) { PDBGFFLOWTRACEMODINT pThis = hFlowTraceMod; if (!pThis) return 0; AssertPtrReturn(pThis, UINT32_MAX); uint32_t cRefs = ASMAtomicDecU32(&pThis->cRefs); AssertMsg(cRefs < _1M, ("%#x %p\n", cRefs, pThis)); if (cRefs == 0) dbgfR3FlowTraceModDestroy(pThis); return cRefs; } /** * Enables and arms all probes in the given flow trace module. * * @returns VBox status code. * @param hFlowTraceMod Flow trace module handle. * @param cHits Number of hits inside this module until the module is disabled * automatically, 0 if not to disable automatically. * @param cRecordsMax Maximum number of records to keep until the oldest is evicted. */ VMMR3DECL(int) DBGFR3FlowTraceModEnable(DBGFFLOWTRACEMOD hFlowTraceMod, uint32_t cHits, uint32_t cRecordsMax) { PDBGFFLOWTRACEMODINT pThis = hFlowTraceMod; AssertPtrReturn(pThis, VERR_INVALID_HANDLE); AssertReturn(pThis->cProbes > 0, VERR_INVALID_STATE); AssertReturn(pThis->enmState == DBGFFLOWTRACEMODSTATE_CREATED, VERR_INVALID_STATE); pThis->cHitsLeft = cHits; pThis->cRecordsMax = cRecordsMax; return VMMR3EmtRendezvous(pThis->pUVM->pVM, VMMEMTRENDEZVOUS_FLAGS_TYPE_ONCE, dbgfR3FlowTraceModEnableWorker, pThis); } /** * Disables all probes in the given flow trace module. * * @returns VBox status code. * @param hFlowTraceMod Flow trace module handle. */ VMMR3DECL(int) DBGFR3FlowTraceModDisable(DBGFFLOWTRACEMOD hFlowTraceMod) { PDBGFFLOWTRACEMODINT pThis = hFlowTraceMod; AssertPtrReturn(pThis, VERR_INVALID_HANDLE); AssertReturn(pThis->enmState == DBGFFLOWTRACEMODSTATE_ENABLED, VERR_INVALID_STATE); return VMMR3EmtRendezvous(pThis->pUVM->pVM, VMMEMTRENDEZVOUS_FLAGS_TYPE_ONCE, dbgfR3FlowTraceModDisableWorker, pThis); } /** * Returns a report containing all existing records in the given flow trace module. * * @returns VBox status code. * @param hFlowTraceMod Flow trace module handle. * @param phFlowTraceReport Where to store the flow trace report handle on success. */ VMMR3DECL(int) DBGFR3FlowTraceModQueryReport(DBGFFLOWTRACEMOD hFlowTraceMod, PDBGFFLOWTRACEREPORT phFlowTraceReport) { PDBGFFLOWTRACEMODINT pThis = hFlowTraceMod; AssertPtrReturn(pThis, VERR_INVALID_HANDLE); AssertPtrReturn(phFlowTraceReport, VERR_INVALID_POINTER); /** @todo Locking. */ int rc = VINF_SUCCESS; PDBGFFLOWTRACEREPORTINT pReport = dbgfR3FlowTraceReportCreate(pThis->pUVM, pThis->cRecords); if (RT_LIKELY(pReport)) { PDBGFFLOWTRACERECORDINT pIt; uint32_t idx = 0; RTSemFastMutexRequest(pThis->hMtx); RTListForEach(&pThis->LstRecords, pIt, DBGFFLOWTRACERECORDINT, NdRecord) { DBGFR3FlowTraceRecordRetain(pIt); pReport->apRec[idx++] = pIt; } RTSemFastMutexRelease(pThis->hMtx); *phFlowTraceReport = pReport; } else rc = VERR_NO_MEMORY; return rc; } /** * Clears all records contained in the flow trace module. * * @returns VBox status code. * @param hFlowTraceMod Flow trace module handle. */ VMMR3DECL(int) DBGFR3FlowTraceModClear(DBGFFLOWTRACEMOD hFlowTraceMod) { PDBGFFLOWTRACEMODINT pThis = hFlowTraceMod; AssertPtrReturn(pThis, VERR_INVALID_HANDLE); RTSemFastMutexRequest(pThis->hMtx); RTLISTANCHOR LstTmp; RTListMove(&LstTmp, &pThis->LstRecords); ASMAtomicWriteU32(&pThis->cRecords, 0); RTSemFastMutexRelease(pThis->hMtx); PDBGFFLOWTRACERECORDINT pIt, pItNext; RTListForEachSafe(&LstTmp, pIt, pItNext, DBGFFLOWTRACERECORDINT, NdRecord) { RTListNodeRemove(&pIt->NdRecord); DBGFR3FlowTraceRecordRelease(pIt); } return VINF_SUCCESS; } /** * Adds a new probe to the given flow trace module. * * @returns VBox status code * @retval VERR_INVALID_STATE if the probe is active or was destroyed already. * @retval VERR_ALREADY_EXISTS if there is already a probe at the specified location. * @param hFlowTraceMod Flow trace module handle. * @param pAddrProbe Guest address to insert the probe at. * @param hFlowTraceProbe The handle of the probe to insert. * @param fFlags Combination of DBGF_FLOW_TRACE_PROBE_ADD_F_*. */ VMMR3DECL(int) DBGFR3FlowTraceModAddProbe(DBGFFLOWTRACEMOD hFlowTraceMod, PCDBGFADDRESS pAddrProbe, DBGFFLOWTRACEPROBE hFlowTraceProbe, uint32_t fFlags) { PDBGFFLOWTRACEMODINT pThis = hFlowTraceMod; PDBGFFLOWTRACEPROBEINT pProbe = hFlowTraceProbe; AssertPtrReturn(pThis, VERR_INVALID_HANDLE); AssertPtrReturn(pProbe, VERR_INVALID_HANDLE); AssertPtrReturn(pAddrProbe, VERR_INVALID_POINTER); AssertReturn(!(fFlags & ~DBGF_FLOW_TRACE_PROBE_ADD_F_VALID_MASK), VERR_INVALID_PARAMETER); AssertReturn(pThis->enmState == DBGFFLOWTRACEMODSTATE_CREATED, VERR_INVALID_STATE); int rc = VINF_SUCCESS; PDBGFFLOWTRACEMODPROBELOC pProbeLoc = dbgfR3TraceModGetProbeLocAtAddr(pThis, pAddrProbe); if (!pProbeLoc) { pProbeLoc = (PDBGFFLOWTRACEMODPROBELOC)MMR3HeapAllocZU(pThis->pUVM, MM_TAG_DBGF_FLOWTRACE, sizeof(DBGFFLOWTRACEMODPROBELOC)); if (RT_LIKELY(pProbeLoc)) { pProbeLoc->pTraceMod = pThis; pProbeLoc->pProbe = pProbe; pProbeLoc->AddrProbe = *pAddrProbe; pProbeLoc->fFlags = fFlags; ASMAtomicIncU32(&pProbe->cRefs); ASMAtomicIncU32(&pProbe->cRefsMod); RTSemFastMutexRequest(pThis->hMtx); RTListAppend(&pThis->LstProbes, &pProbeLoc->NdProbes); pThis->cProbes++; RTSemFastMutexRelease(pThis->hMtx); } else rc = VERR_NO_MEMORY; } else rc = VERR_ALREADY_EXISTS; return rc; } /** * Creates a new empty probe. * * @returns VBox status code. * @param pUVM The usermode VM handle. * @param pszDescr Description of the probe, optional. * @param phFlowTraceProbe Where to store the probe handle on success. */ VMMR3DECL(int) DBGFR3FlowTraceProbeCreate(PUVM pUVM, const char *pszDescr, PDBGFFLOWTRACEPROBE phFlowTraceProbe) { int rc = VINF_SUCCESS; PDBGFFLOWTRACEPROBEINT pProbe = (PDBGFFLOWTRACEPROBEINT)MMR3HeapAllocZU(pUVM, MM_TAG_DBGF_FLOWTRACE, sizeof(DBGFFLOWTRACEPROBEINT)); if (RT_LIKELY(pProbe)) { pProbe->cRefs = 1; pProbe->cRefsMod = 0; pProbe->pUVM = pUVM; pProbe->cbProbe = 0; pProbe->cEntries = 0; pProbe->cEntriesMax = 0; pProbe->paEntries = NULL; pProbe->pszDescr = NULL; if (pszDescr) { pProbe->pszDescr = MMR3HeapStrDupU(pUVM, MM_TAG_DBGF_FLOWTRACE, pszDescr); if (!pProbe->pszDescr) { MMR3HeapFree(pProbe); rc = VERR_NO_MEMORY; } } if (RT_SUCCESS(rc)) *phFlowTraceProbe = pProbe; } else rc = VERR_NO_MEMORY; return rc; } /** * Retains a reference to the probe. * * @returns New reference count. * @param hFlowTraceProbe Flow trace probe handle. */ VMMR3DECL(uint32_t) DBGFR3FlowTraceProbeRetain(DBGFFLOWTRACEPROBE hFlowTraceProbe) { PDBGFFLOWTRACEPROBEINT pProbe = hFlowTraceProbe; AssertPtrReturn(pProbe, UINT32_MAX); uint32_t cRefs = ASMAtomicIncU32(&pProbe->cRefs); AssertMsg(cRefs > 1 && cRefs < _1M, ("%#x %p\n", cRefs, pProbe)); return cRefs; } /** * Release a probe reference. * * @returns New reference count, on 0 the probe is destroyed. * @param hFlowTraceProbe Flow trace probe handle. */ VMMR3DECL(uint32_t) DBGFR3FlowTraceProbeRelease(DBGFFLOWTRACEPROBE hFlowTraceProbe) { PDBGFFLOWTRACEPROBEINT pProbe = hFlowTraceProbe; if (!pProbe) return 0; AssertPtrReturn(pProbe, UINT32_MAX); uint32_t cRefs = ASMAtomicDecU32(&pProbe->cRefs); AssertMsg(cRefs < _1M, ("%#x %p\n", cRefs, pProbe)); if (cRefs == 0) dbgfR3FlowTraceProbeDestroy(pProbe); return cRefs; } /** * Adds new data to log in the given probe. * * @returns VBox status code. * @retval VERR_INVALID_STATE if the probe is already part of a trace module and it is not * possible to add new entries at this point. * @param hFlowTraceProbe Flow trace probe handle. * @param paEntries Pointer to the array of entry descriptors. * @param cEntries Number of entries in the array. */ VMMR3DECL(int) DBGFR3FlowTraceProbeEntriesAdd(DBGFFLOWTRACEPROBE hFlowTraceProbe, PCDBGFFLOWTRACEPROBEENTRY paEntries, uint32_t cEntries) { PDBGFFLOWTRACEPROBEINT pProbe = hFlowTraceProbe; AssertPtrReturn(pProbe, VERR_INVALID_HANDLE); AssertPtrReturn(paEntries, VERR_INVALID_POINTER); AssertReturn(cEntries > 0, VERR_INVALID_PARAMETER); AssertReturn(!pProbe->cRefsMod, VERR_INVALID_STATE); int rc = dbgfR3ProbeEnsureSize(pProbe, cEntries); if (RT_SUCCESS(rc)) { uint32_t idxEntry; for (idxEntry = 0; idxEntry < cEntries && RT_SUCCESS(rc); idxEntry++) { PCDBGFFLOWTRACEPROBEENTRY pEntry = &paEntries[idxEntry]; PDBGFFLOWTRACEPROBEENTRY pProbeEntry = &pProbe->paEntries[pProbe->cEntries + idxEntry]; rc = dbgfR3ProbeEntryDup(pProbe->pUVM, pProbeEntry, pEntry); } if (RT_FAILURE(rc)) dbgfR3ProbeEntryCleanup(pProbe, pProbe->cEntries, idxEntry + 1); else { pProbe->cEntries += cEntries; dbgfR3ProbeRecalcSize(pProbe); } } return rc; } /** * Retains a reference to the given flow trace report. * * @returns New reference count. * @param hFlowTraceReport Flow trace report handle. */ VMMR3DECL(uint32_t) DBGFR3FlowTraceReportRetain(DBGFFLOWTRACEREPORT hFlowTraceReport) { PDBGFFLOWTRACEREPORTINT pReport = hFlowTraceReport; AssertPtrReturn(pReport, UINT32_MAX); uint32_t cRefs = ASMAtomicIncU32(&pReport->cRefs); AssertMsg(cRefs > 1 && cRefs < _1M, ("%#x %p\n", cRefs, pReport)); return cRefs; } /** * Releases a reference of the given flow trace report. * * @returns New reference count, on 0 the report is destroyed. * @param hFlowTraceReport Flow trace report handle. */ VMMR3DECL(uint32_t) DBGFR3FlowTraceReportRelease(DBGFFLOWTRACEREPORT hFlowTraceReport) { PDBGFFLOWTRACEREPORTINT pReport = hFlowTraceReport; if (!pReport) return 0; AssertPtrReturn(pReport, UINT32_MAX); uint32_t cRefs = ASMAtomicDecU32(&pReport->cRefs); AssertMsg(cRefs < _1M, ("%#x %p\n", cRefs, pReport)); if (cRefs == 0) dbgfR3FlowTraceReportDestroy(pReport); return cRefs; } /** * Returns the number of records in the given report. * * @returns Number of records. * @param hFlowTraceReport Flow trace report handle. */ VMMR3DECL(uint32_t) DBGFR3FlowTraceReportGetRecordCount(DBGFFLOWTRACEREPORT hFlowTraceReport) { PDBGFFLOWTRACEREPORTINT pReport = hFlowTraceReport; AssertPtrReturn(pReport, 0); return pReport->cRecords; } /** * Queries the specified record contained in the given report. * * @returns VBox status code. * @param hFlowTraceReport Flow trace report handle. * @param idxRec The record index to query. * @param phFlowTraceRec Where to store the retained handle of the record on success. */ VMMR3DECL(int) DBGFR3FlowTraceReportQueryRecord(DBGFFLOWTRACEREPORT hFlowTraceReport, uint32_t idxRec, PDBGFFLOWTRACERECORD phFlowTraceRec) { PDBGFFLOWTRACEREPORTINT pReport = hFlowTraceReport; AssertPtrReturn(pReport, 0); AssertPtrReturn(phFlowTraceRec, VERR_INVALID_POINTER); AssertReturn(idxRec < pReport->cRecords, VERR_INVALID_PARAMETER); DBGFR3FlowTraceRecordRetain(pReport->apRec[idxRec]); *phFlowTraceRec = pReport->apRec[idxRec]; return VINF_SUCCESS; } /** * Filters the given flow trace report by the given criterias and returns a filtered report. * * @returns VBox status code. * @param hFlowTraceReport Flow trace report handle. * @param fFlags Combination of DBGF_FLOW_TRACE_REPORT_FILTER_F_*. * @param paFilters Pointer to the array of filters. * @param cFilters Number of entries in the filter array. * @param enmOp How the filters are connected to each other. * @param phFlowTraceReportFiltered Where to return the handle to the report containing the * filtered records on success. */ VMMR3DECL(int) DBGFR3FlowTraceReportQueryFiltered(DBGFFLOWTRACEREPORT hFlowTraceReport, uint32_t fFlags, PDBGFFLOWTRACEREPORTFILTER paFilters, uint32_t cFilters, DBGFFLOWTRACEREPORTFILTEROP enmOp, PDBGFFLOWTRACEREPORT phFlowTraceReportFiltered) { PDBGFFLOWTRACEREPORTINT pReport = hFlowTraceReport; AssertPtrReturn(pReport, VERR_INVALID_HANDLE); AssertReturn(!(fFlags & DBGF_FLOW_TRACE_REPORT_FILTER_F_VALID), VERR_INVALID_PARAMETER); AssertPtrReturn(paFilters, VERR_INVALID_POINTER); AssertReturn(cFilters > 0, VERR_INVALID_PARAMETER); AssertReturn(enmOp > DBGFFLOWTRACEREPORTFILTEROP_INVALID && enmOp <= DBGFFLOWTRACEREPORTFILTEROP_OR, VERR_INVALID_PARAMETER); AssertPtrReturn(phFlowTraceReportFiltered, VERR_INVALID_POINTER); int rc = VINF_SUCCESS; PDBGFFLOWTRACEREPORTINT pReportFiltered = dbgfR3FlowTraceReportCreate(pReport->pUVM, pReport->cRecords); if (RT_LIKELY(pReport)) { uint32_t idxFiltered = 0; for (uint32_t i = 0; i < pReport->cRecords; i++) { PDBGFFLOWTRACERECORDINT pCur = pReport->apRec[i]; bool fRecFilterMatch = dbgfR3FlowTraceDoesRecordMatchFilter(pCur, paFilters, cFilters, enmOp); if ( ( fRecFilterMatch && !(fFlags & DBGF_FLOW_TRACE_REPORT_FILTER_F_REVERSE)) || ( !fRecFilterMatch && (fFlags & DBGF_FLOW_TRACE_REPORT_FILTER_F_REVERSE))) { DBGFR3FlowTraceRecordRetain(pCur); pReportFiltered->apRec[idxFiltered++] = pCur; } } pReportFiltered->cRecords = idxFiltered; *phFlowTraceReportFiltered = pReportFiltered; } else rc = VERR_NO_MEMORY; return rc; } /** * Enumerates all records in the given flow trace report calling the supplied * enumeration callback. * * @returns VBox status code, return value of pfnEnum on error. * @param hFlowTraceReport Flow trace report handle. * @param pfnEnum The callback to call for every record. * @param pvUser Opaque user data to pass to the callback. */ VMMR3DECL(int) DBGFR3FlowTraceReportEnumRecords(DBGFFLOWTRACEREPORT hFlowTraceReport, PFNDBGFFLOWTRACEREPORTENUMCLBK pfnEnum, void *pvUser) { PDBGFFLOWTRACEREPORTINT pReport = hFlowTraceReport; AssertPtrReturn(pReport, VERR_INVALID_HANDLE); int rc = VINF_SUCCESS; for (uint32_t i = 0; i < pReport->cRecords && RT_SUCCESS(rc); i++) rc = pfnEnum(pReport, pReport->apRec[i], pvUser); return rc; } /** * Retains a reference to the given flow trace record handle. * * @returns New reference count. * @param hFlowTraceRecord The record handle to retain. */ VMMR3DECL(uint32_t) DBGFR3FlowTraceRecordRetain(DBGFFLOWTRACERECORD hFlowTraceRecord) { PDBGFFLOWTRACERECORDINT pRecord = hFlowTraceRecord; AssertPtrReturn(pRecord, UINT32_MAX); uint32_t cRefs = ASMAtomicIncU32(&pRecord->cRefs); AssertMsg(cRefs > 1 && cRefs < _1M, ("%#x %p\n", cRefs, pRecord)); return cRefs; } /** * Releases a reference of the given flow trace record. * * @returns New reference count, on 0 the record is destroyed. * @param hFlowTraceRecord Flow trace record handle. */ VMMR3DECL(uint32_t) DBGFR3FlowTraceRecordRelease(DBGFFLOWTRACERECORD hFlowTraceRecord) { PDBGFFLOWTRACERECORDINT pRecord = hFlowTraceRecord; if (!pRecord) return 0; AssertPtrReturn(pRecord, UINT32_MAX); uint32_t cRefs = ASMAtomicDecU32(&pRecord->cRefs); AssertMsg(cRefs < _1M, ("%#x %p\n", cRefs, pRecord)); if (cRefs == 0) dbgfR3FlowTraceRecordDestroy(pRecord); return cRefs; } /** * Gets the sequence number of the given record handle. * * @returns Sequence number. * @param hFlowTraceRecord Flow trace record handle. */ VMMR3DECL(uint64_t) DBGFR3FlowTraceRecordGetSeqNo(DBGFFLOWTRACERECORD hFlowTraceRecord) { PDBGFFLOWTRACERECORDINT pRecord = hFlowTraceRecord; AssertPtrReturn(pRecord, 0); return pRecord->u64SeqNo; } /** * Returns the timestamp when the record was created. * * @returns Timestamp in nano seconds. * @param hFlowTraceRecord Flow trace record handle. */ VMMR3DECL(uint64_t) DBGFR3FlowTraceRecordGetTimestamp(DBGFFLOWTRACERECORD hFlowTraceRecord) { PDBGFFLOWTRACERECORDINT pRecord = hFlowTraceRecord; AssertPtrReturn(pRecord, 0); return pRecord->u64TsCollected; } /** * Gets the address in the guest the record was created. * * @returns Pointer to the address containing the guest location the record was created at. * @param hFlowTraceRecord Flow trace record handle. * @param pAddr Where to store the guest address. */ VMMR3DECL(PDBGFADDRESS) DBGFR3FlowTraceRecordGetAddr(DBGFFLOWTRACERECORD hFlowTraceRecord, PDBGFADDRESS pAddr) { PDBGFFLOWTRACERECORDINT pRecord = hFlowTraceRecord; AssertPtrReturn(pRecord, NULL); AssertPtrReturn(pAddr, NULL); *pAddr = pRecord->AddrProbe; return pAddr; } /** * Returns the handle to the probe for the given record. * * @returns Handle to the probe. * @param hFlowTraceRecord Flow trace record handle. */ VMMR3DECL(DBGFFLOWTRACEPROBE) DBGFR3FlowTraceRecordGetProbe(DBGFFLOWTRACERECORD hFlowTraceRecord) { PDBGFFLOWTRACERECORDINT pRecord = hFlowTraceRecord; AssertPtrReturn(pRecord, NULL); DBGFR3FlowTraceProbeRetain(pRecord->pProbe); return pRecord->pProbe; } /** * Returns the number of values contained in the record. * * @returns Number of values in the record. * @param hFlowTraceRecord Flow trace record handle. */ VMMR3DECL(uint32_t) DBGFR3FlowTraceRecordGetValCount(DBGFFLOWTRACERECORD hFlowTraceRecord) { PDBGFFLOWTRACERECORDINT pRecord = hFlowTraceRecord; AssertPtrReturn(pRecord, 0); return pRecord->pProbe->cEntries; } /** * Returns the number of values contained in the record. * * @returns Number of values in the record. * @param hFlowTraceRecord Flow trace record handle. */ VMMR3DECL(uint32_t) DBGFR3FlowTraceRecordGetValCommonCount(DBGFFLOWTRACERECORD hFlowTraceRecord) { PDBGFFLOWTRACERECORDINT pRecord = hFlowTraceRecord; AssertPtrReturn(pRecord, 0); return pRecord->pProbeCmn ? pRecord->pProbeCmn->cEntries : 0; } /** * Returns the values for the given record. * * @returns Pointer to the array of values. * @param hFlowTraceRecord Flow trace record handle. */ VMMR3DECL(PCDBGFFLOWTRACEPROBEVAL) DBGFR3FlowTraceRecordGetVals(DBGFFLOWTRACERECORD hFlowTraceRecord) { PDBGFFLOWTRACERECORDINT pRecord = hFlowTraceRecord; AssertPtrReturn(pRecord, NULL); return &pRecord->aVal[0]; } /** * Returns data collected by the common probe for the trace module this record is in if one * is active. * * @returns Pointer to the array of common probe values or NULL if no common probe was specified * for the trace module. * @param hFlowTraceRecord Flow trace record handle. */ VMMR3DECL(PCDBGFFLOWTRACEPROBEVAL) DBGFR3FlowTraceRecordGetValsCommon(DBGFFLOWTRACERECORD hFlowTraceRecord) { PDBGFFLOWTRACERECORDINT pRecord = hFlowTraceRecord; AssertPtrReturn(pRecord, NULL); return pRecord->paValCmn; } /** * Returns the vCPU ID the record was created on. * * @returns vCPU ID. * @param hFlowTraceRecord Flow trace record handle. */ VMMR3DECL(VMCPUID) DBGFR3FlowTraceRecordGetCpuId(DBGFFLOWTRACERECORD hFlowTraceRecord) { PDBGFFLOWTRACERECORDINT pRecord = hFlowTraceRecord; AssertPtrReturn(pRecord, VMCPUID_ANY); return pRecord->idCpu; }