/* $Id: TMInternal.h 62869 2016-08-02 12:01:23Z vboxsync $ */ /** @file * TM - Internal header file. */ /* * Copyright (C) 2006-2016 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ #ifndef ___TMInternal_h #define ___TMInternal_h #include #include #include #include #include #include #include RT_C_DECLS_BEGIN /** @defgroup grp_tm_int Internal * @ingroup grp_tm * @internal * @{ */ /** Frequency of the real clock. */ #define TMCLOCK_FREQ_REAL UINT32_C(1000) /** Frequency of the virtual clock. */ #define TMCLOCK_FREQ_VIRTUAL UINT32_C(1000000000) /** * Timer type. */ typedef enum TMTIMERTYPE { /** Device timer. */ TMTIMERTYPE_DEV = 1, /** USB device timer. */ TMTIMERTYPE_USB, /** Driver timer. */ TMTIMERTYPE_DRV, /** Internal timer . */ TMTIMERTYPE_INTERNAL, /** External timer. */ TMTIMERTYPE_EXTERNAL } TMTIMERTYPE; /** * Timer state */ typedef enum TMTIMERSTATE { /** Timer is stopped. */ TMTIMERSTATE_STOPPED = 1, /** Timer is active. */ TMTIMERSTATE_ACTIVE, /** Timer is expired, getting expire and unlinking. */ TMTIMERSTATE_EXPIRED_GET_UNLINK, /** Timer is expired and is being delivered. */ TMTIMERSTATE_EXPIRED_DELIVER, /** Timer is stopped but still in the active list. * Currently in the ScheduleTimers list. */ TMTIMERSTATE_PENDING_STOP, /** Timer is stopped but needs unlinking from the ScheduleTimers list. * Currently in the ScheduleTimers list. */ TMTIMERSTATE_PENDING_STOP_SCHEDULE, /** Timer is being modified and will soon be pending scheduling. * Currently in the ScheduleTimers list. */ TMTIMERSTATE_PENDING_SCHEDULE_SET_EXPIRE, /** Timer is pending scheduling. * Currently in the ScheduleTimers list. */ TMTIMERSTATE_PENDING_SCHEDULE, /** Timer is being modified and will soon be pending rescheduling. * Currently in the ScheduleTimers list and the active list. */ TMTIMERSTATE_PENDING_RESCHEDULE_SET_EXPIRE, /** Timer is modified and is now pending rescheduling. * Currently in the ScheduleTimers list and the active list. */ TMTIMERSTATE_PENDING_RESCHEDULE, /** Timer is being destroyed. */ TMTIMERSTATE_DESTROY, /** Timer is free. */ TMTIMERSTATE_FREE } TMTIMERSTATE; /** Predicate that returns true if the give state is pending scheduling or * rescheduling of any kind. Will reference the argument more than once! */ #define TMTIMERSTATE_IS_PENDING_SCHEDULING(enmState) \ ( (enmState) <= TMTIMERSTATE_PENDING_RESCHEDULE \ && (enmState) >= TMTIMERSTATE_PENDING_SCHEDULE_SET_EXPIRE) /** * Internal representation of a timer. * * For correct serialization (without the use of semaphores and * other blocking/slow constructs) certain rules applies to updating * this structure: * - For thread other than EMT only u64Expire, enmState and pScheduleNext* * are changeable. Everything else is out of bounds. * - Updating of u64Expire timer can only happen in the TMTIMERSTATE_STOPPED * and TMTIMERSTATE_PENDING_RESCHEDULING_SET_EXPIRE states. * - Timers in the TMTIMERSTATE_EXPIRED state are only accessible from EMT. * - Actual destruction of a timer can only be done at scheduling time. */ typedef struct TMTIMER { /** Expire time. */ volatile uint64_t u64Expire; /** Clock to apply to u64Expire. */ TMCLOCK enmClock; /** Timer callback type. */ TMTIMERTYPE enmType; /** Type specific data. */ union { /** TMTIMERTYPE_DEV. */ struct { /** Callback. */ R3PTRTYPE(PFNTMTIMERDEV) pfnTimer; /** Device instance. */ PPDMDEVINSR3 pDevIns; } Dev; /** TMTIMERTYPE_DEV. */ struct { /** Callback. */ R3PTRTYPE(PFNTMTIMERUSB) pfnTimer; /** USB device instance. */ PPDMUSBINS pUsbIns; } Usb; /** TMTIMERTYPE_DRV. */ struct { /** Callback. */ R3PTRTYPE(PFNTMTIMERDRV) pfnTimer; /** Device instance. */ R3PTRTYPE(PPDMDRVINS) pDrvIns; } Drv; /** TMTIMERTYPE_INTERNAL. */ struct { /** Callback. */ R3PTRTYPE(PFNTMTIMERINT) pfnTimer; } Internal; /** TMTIMERTYPE_EXTERNAL. */ struct { /** Callback. */ R3PTRTYPE(PFNTMTIMEREXT) pfnTimer; } External; } u; /** Timer state. */ volatile TMTIMERSTATE enmState; /** Timer relative offset to the next timer in the schedule list. */ int32_t volatile offScheduleNext; /** Timer relative offset to the next timer in the chain. */ int32_t offNext; /** Timer relative offset to the previous timer in the chain. */ int32_t offPrev; /** Pointer to the VM the timer belongs to - R3 Ptr. */ PVMR3 pVMR3; /** Pointer to the VM the timer belongs to - R0 Ptr. */ PVMR0 pVMR0; /** Pointer to the VM the timer belongs to - RC Ptr. */ PVMRC pVMRC; /** The timer frequency hint. This is 0 if not hint was given. */ uint32_t volatile uHzHint; /** User argument. */ RTR3PTR pvUser; /** The critical section associated with the lock. */ R3PTRTYPE(PPDMCRITSECT) pCritSect; /** Pointer to the next timer in the list of created or free timers. (TM::pTimers or TM::pFree) */ PTMTIMERR3 pBigNext; /** Pointer to the previous timer in the list of all created timers. (TM::pTimers) */ PTMTIMERR3 pBigPrev; /** Pointer to the timer description. */ R3PTRTYPE(const char *) pszDesc; #if HC_ARCH_BITS == 32 uint32_t padding0; /**< pad structure to multiple of 8 bytes. */ #endif } TMTIMER; AssertCompileMemberSize(TMTIMER, enmState, sizeof(uint32_t)); /** * Updates a timer state in the correct atomic manner. */ #if 1 # define TM_SET_STATE(pTimer, state) \ ASMAtomicWriteU32((uint32_t volatile *)&(pTimer)->enmState, state) #else # define TM_SET_STATE(pTimer, state) \ do { \ uint32_t uOld1 = (pTimer)->enmState; \ Log(("%s: %p: %d -> %d\n", __FUNCTION__, (pTimer), (pTimer)->enmState, state)); \ uint32_t uOld2 = ASMAtomicXchgU32((uint32_t volatile *)&(pTimer)->enmState, state); \ Assert(uOld1 == uOld2); \ } while (0) #endif /** * Tries to updates a timer state in the correct atomic manner. */ #if 1 # define TM_TRY_SET_STATE(pTimer, StateNew, StateOld, fRc) \ (fRc) = ASMAtomicCmpXchgU32((uint32_t volatile *)&(pTimer)->enmState, StateNew, StateOld) #else # define TM_TRY_SET_STATE(pTimer, StateNew, StateOld, fRc) \ do { (fRc) = ASMAtomicCmpXchgU32((uint32_t volatile *)&(pTimer)->enmState, StateNew, StateOld); \ Log(("%s: %p: %d -> %d %RTbool\n", __FUNCTION__, (pTimer), StateOld, StateNew, fRc)); \ } while (0) #endif /** Get the previous timer. */ #define TMTIMER_GET_PREV(pTimer) ((PTMTIMER)((pTimer)->offPrev ? (intptr_t)(pTimer) + (pTimer)->offPrev : 0)) /** Get the next timer. */ #define TMTIMER_GET_NEXT(pTimer) ((PTMTIMER)((pTimer)->offNext ? (intptr_t)(pTimer) + (pTimer)->offNext : 0)) /** Set the previous timer link. */ #define TMTIMER_SET_PREV(pTimer, pPrev) ((pTimer)->offPrev = (pPrev) ? (intptr_t)(pPrev) - (intptr_t)(pTimer) : 0) /** Set the next timer link. */ #define TMTIMER_SET_NEXT(pTimer, pNext) ((pTimer)->offNext = (pNext) ? (intptr_t)(pNext) - (intptr_t)(pTimer) : 0) /** * A timer queue. * * This is allocated on the hyper heap. */ typedef struct TMTIMERQUEUE { /** The cached expire time for this queue. * Updated by EMT when scheduling the queue or modifying the head timer. * Assigned UINT64_MAX when there is no head timer. */ uint64_t u64Expire; /** Doubly linked list of active timers. * * When no scheduling is pending, this list is will be ordered by expire time (ascending). * Access is serialized by only letting the emulation thread (EMT) do changes. * * The offset is relative to the queue structure. */ int32_t offActive; /** List of timers pending scheduling of some kind. * * Timer stats allowed in the list are TMTIMERSTATE_PENDING_STOPPING, * TMTIMERSTATE_PENDING_DESTRUCTION, TMTIMERSTATE_PENDING_STOPPING_DESTRUCTION, * TMTIMERSTATE_PENDING_RESCHEDULING and TMTIMERSTATE_PENDING_SCHEDULE. * * The offset is relative to the queue structure. */ int32_t volatile offSchedule; /** The clock for this queue. */ TMCLOCK enmClock; /** Pad the structure up to 32 bytes. */ uint32_t au32Padding[3]; } TMTIMERQUEUE; /** Pointer to a timer queue. */ typedef TMTIMERQUEUE *PTMTIMERQUEUE; /** Get the head of the active timer list. */ #define TMTIMER_GET_HEAD(pQueue) ((PTMTIMER)((pQueue)->offActive ? (intptr_t)(pQueue) + (pQueue)->offActive : 0)) /** Set the head of the active timer list. */ #define TMTIMER_SET_HEAD(pQueue, pHead) ((pQueue)->offActive = pHead ? (intptr_t)pHead - (intptr_t)(pQueue) : 0) /** * CPU load data set. * Mainly used by tmR3CpuLoadTimer. */ typedef struct TMCPULOADSTATE { /** The percent of the period spent executing guest code. */ uint8_t cPctExecuting; /** The percent of the period spent halted. */ uint8_t cPctHalted; /** The percent of the period spent on other things. */ uint8_t cPctOther; /** Explicit alignment padding */ uint8_t au8Alignment[5]; /** Previous cNsTotal value. */ uint64_t cNsPrevTotal; /** Previous cNsExecuting value. */ uint64_t cNsPrevExecuting; /** Previous cNsHalted value. */ uint64_t cNsPrevHalted; } TMCPULOADSTATE; AssertCompileSizeAlignment(TMCPULOADSTATE, 8); AssertCompileMemberAlignment(TMCPULOADSTATE, cNsPrevTotal, 8); /** Pointer to a CPU load data set. */ typedef TMCPULOADSTATE *PTMCPULOADSTATE; /** * TSC mode. * * The main modes of how TM implements the TSC clock (TMCLOCK_TSC). */ typedef enum TMTSCMODE { /** The guest TSC is an emulated, virtual TSC. */ TMTSCMODE_VIRT_TSC_EMULATED = 1, /** The guest TSC is an offset of the real TSC. */ TMTSCMODE_REAL_TSC_OFFSET, /** The guest TSC is dynamically derived through emulating or offsetting. */ TMTSCMODE_DYNAMIC } TMTSCMODE; AssertCompileSize(TMTSCMODE, sizeof(uint32_t)); /** * Converts a TM pointer into a VM pointer. * @returns Pointer to the VM structure the TM is part of. * @param pTM Pointer to TM instance data. */ #define TM2VM(pTM) ( (PVM)((char*)pTM - pTM->offVM) ) /** * TM VM Instance data. * Changes to this must checked against the padding of the cfgm union in VM! */ typedef struct TM { /** Offset to the VM structure. * See TM2VM(). */ RTUINT offVM; /** The current TSC mode of the VM. * Config variable: Mode (string). */ TMTSCMODE enmTSCMode; /** The original TSC mode of the VM. */ TMTSCMODE enmOriginalTSCMode; /** Alignment padding. */ uint32_t u32Alignment0; /** Whether the TSC is tied to the execution of code. * Config variable: TSCTiedToExecution (bool) */ bool fTSCTiedToExecution; /** Modifier for fTSCTiedToExecution which pauses the TSC while halting if true. * Config variable: TSCNotTiedToHalt (bool) */ bool fTSCNotTiedToHalt; /** Whether TM TSC mode switching is allowed at runtime. */ bool fTSCModeSwitchAllowed; /** Whether the guest has enabled use of paravirtualized TSC. */ bool fParavirtTscEnabled; /** The ID of the virtual CPU that normally runs the timers. */ VMCPUID idTimerCpu; /** The number of CPU clock ticks per second (TMCLOCK_TSC). * Config variable: TSCTicksPerSecond (64-bit unsigned int) * The config variable implies @c enmTSCMode would be * TMTSCMODE_VIRT_TSC_EMULATED. */ uint64_t cTSCTicksPerSecond; /** The TSC difference introduced by pausing the VM. */ uint64_t offTSCPause; /** The TSC value when the last TSC was paused. */ uint64_t u64LastPausedTSC; /** CPU TSCs ticking indicator (one for each VCPU). */ uint32_t volatile cTSCsTicking; /** Virtual time ticking enabled indicator (counter for each VCPU). (TMCLOCK_VIRTUAL) */ uint32_t volatile cVirtualTicking; /** Virtual time is not running at 100%. */ bool fVirtualWarpDrive; /** Virtual timer synchronous time ticking enabled indicator (bool). (TMCLOCK_VIRTUAL_SYNC) */ bool volatile fVirtualSyncTicking; /** Virtual timer synchronous time catch-up active. */ bool volatile fVirtualSyncCatchUp; /** Alignment padding. */ bool afAlignment1[1]; /** WarpDrive percentage. * 100% is normal (fVirtualSyncNormal == true). When other than 100% we apply * this percentage to the raw time source for the period it's been valid in, * i.e. since u64VirtualWarpDriveStart. */ uint32_t u32VirtualWarpDrivePercentage; /** The offset of the virtual clock relative to it's timesource. * Only valid if fVirtualTicking is set. */ uint64_t u64VirtualOffset; /** The guest virtual time when fVirtualTicking is cleared. */ uint64_t u64Virtual; /** When the Warp drive was started or last adjusted. * Only valid when fVirtualWarpDrive is set. */ uint64_t u64VirtualWarpDriveStart; /** The previously returned nano TS. * This handles TSC drift on SMP systems and expired interval. * This is a valid range u64NanoTS to u64NanoTS + 1000000000 (ie. 1sec). */ uint64_t volatile u64VirtualRawPrev; /** The ring-3 data structure for the RTTimeNanoTS workers used by tmVirtualGetRawNanoTS. */ RTTIMENANOTSDATAR3 VirtualGetRawDataR3; /** The ring-0 data structure for the RTTimeNanoTS workers used by tmVirtualGetRawNanoTS. */ RTTIMENANOTSDATAR0 VirtualGetRawDataR0; /** The ring-0 data structure for the RTTimeNanoTS workers used by tmVirtualGetRawNanoTS. */ RTTIMENANOTSDATARC VirtualGetRawDataRC; /** Pointer to the ring-3 tmVirtualGetRawNanoTS worker function. */ R3PTRTYPE(PFNTIMENANOTSINTERNAL) pfnVirtualGetRawR3; /** Pointer to the ring-0 tmVirtualGetRawNanoTS worker function. */ R0PTRTYPE(PFNTIMENANOTSINTERNAL) pfnVirtualGetRawR0; /** Pointer to the raw-mode tmVirtualGetRawNanoTS worker function. */ RCPTRTYPE(PFNTIMENANOTSINTERNAL) pfnVirtualGetRawRC; /** Alignment. */ RTRCPTR AlignmentRCPtr; /** The guest virtual timer synchronous time when fVirtualSyncTicking is cleared. * When fVirtualSyncTicking is set it holds the last time returned to * the guest (while the lock was held). */ uint64_t volatile u64VirtualSync; /** The offset of the timer synchronous virtual clock (TMCLOCK_VIRTUAL_SYNC) relative * to the virtual clock (TMCLOCK_VIRTUAL). * (This is accessed by the timer thread and must be updated atomically.) */ uint64_t volatile offVirtualSync; /** The offset into offVirtualSync that's been irrevocably given up by failed catch-up attempts. * Thus the current lag is offVirtualSync - offVirtualSyncGivenUp. */ uint64_t offVirtualSyncGivenUp; /** The TMCLOCK_VIRTUAL at the previous TMVirtualGetSync call when catch-up is active. */ uint64_t volatile u64VirtualSyncCatchUpPrev; /** The current catch-up percentage. */ uint32_t volatile u32VirtualSyncCatchUpPercentage; /** How much slack when processing timers. */ uint32_t u32VirtualSyncScheduleSlack; /** When to stop catch-up. */ uint64_t u64VirtualSyncCatchUpStopThreshold; /** When to give up catch-up. */ uint64_t u64VirtualSyncCatchUpGiveUpThreshold; /** @def TM_MAX_CATCHUP_PERIODS * The number of catchup rates. */ #define TM_MAX_CATCHUP_PERIODS 10 /** The aggressiveness of the catch-up relative to how far we've lagged behind. * The idea is to have increasing catch-up percentage as the lag increases. */ struct TMCATCHUPPERIOD { uint64_t u64Start; /**< When this period starts. (u64VirtualSyncOffset). */ uint32_t u32Percentage; /**< The catch-up percent to apply. */ uint32_t u32Alignment; /**< Structure alignment */ } aVirtualSyncCatchUpPeriods[TM_MAX_CATCHUP_PERIODS]; /** The current max timer Hz hint. */ uint32_t volatile uMaxHzHint; /** Whether to recalulate the HzHint next time its queried. */ bool volatile fHzHintNeedsUpdating; /** Alignment */ bool afAlignment2[3]; /** @cfgm{/TM/HostHzMax, uint32_t, Hz, 0, UINT32_MAX, 20000} * The max host Hz frequency hint returned by TMCalcHostTimerFrequency. */ uint32_t cHostHzMax; /** @cfgm{/TM/HostHzFudgeFactorTimerCpu, uint32_t, Hz, 0, UINT32_MAX, 111} * The number of Hz TMCalcHostTimerFrequency adds for the timer CPU. */ uint32_t cPctHostHzFudgeFactorTimerCpu; /** @cfgm{/TM/HostHzFudgeFactorOtherCpu, uint32_t, Hz, 0, UINT32_MAX, 110} * The number of Hz TMCalcHostTimerFrequency adds for the other CPUs. */ uint32_t cPctHostHzFudgeFactorOtherCpu; /** @cfgm{/TM/HostHzFudgeFactorCatchUp100, uint32_t, Hz, 0, UINT32_MAX, 300} * The fudge factor (expressed in percent) that catch-up percentages below * 100% is multiplied by. */ uint32_t cPctHostHzFudgeFactorCatchUp100; /** @cfgm{/TM/HostHzFudgeFactorCatchUp200, uint32_t, Hz, 0, UINT32_MAX, 250} * The fudge factor (expressed in percent) that catch-up percentages * 100%-199% is multiplied by. */ uint32_t cPctHostHzFudgeFactorCatchUp200; /** @cfgm{/TM/HostHzFudgeFactorCatchUp400, uint32_t, Hz, 0, UINT32_MAX, 200} * The fudge factor (expressed in percent) that catch-up percentages * 200%-399% is multiplied by. */ uint32_t cPctHostHzFudgeFactorCatchUp400; /** The UTC offset in ns. * This is *NOT* for converting UTC to local time. It is for converting real * world UTC time to VM UTC time. This feature is indented for doing date * testing of software and similar. * @todo Implement warpdrive on UTC. */ int64_t offUTC; /** Timer queues for the different clock types - R3 Ptr */ R3PTRTYPE(PTMTIMERQUEUE) paTimerQueuesR3; /** Timer queues for the different clock types - R0 Ptr */ R0PTRTYPE(PTMTIMERQUEUE) paTimerQueuesR0; /** Timer queues for the different clock types - RC Ptr */ RCPTRTYPE(PTMTIMERQUEUE) paTimerQueuesRC; /** Pointer to our RC mapping of the GIP. */ RCPTRTYPE(void *) pvGIPRC; /** Pointer to our R3 mapping of the GIP. */ R3PTRTYPE(void *) pvGIPR3; /** Pointer to a singly linked list of free timers. * This chain is using the TMTIMER::pBigNext members. * Only accessible from the emulation thread. */ PTMTIMERR3 pFree; /** Pointer to a doubly linked list of created timers. * This chain is using the TMTIMER::pBigNext and TMTIMER::pBigPrev members. * Only accessible from the emulation thread. */ PTMTIMERR3 pCreated; /** The schedule timer timer handle (runtime timer). * This timer will do frequent check on pending queue schedules and * raise VM_FF_TIMER to pull EMTs attention to them. */ R3PTRTYPE(PRTTIMER) pTimer; /** Interval in milliseconds of the pTimer timer. */ uint32_t u32TimerMillies; /** Indicates that queues are being run. */ bool volatile fRunningQueues; /** Indicates that the virtual sync queue is being run. */ bool volatile fRunningVirtualSyncQueue; /** Alignment */ bool afAlignment3[2]; /** Lock serializing access to the timer lists. */ PDMCRITSECT TimerCritSect; /** Lock serializing access to the VirtualSync clock and the associated * timer queue. */ PDMCRITSECT VirtualSyncLock; /** CPU load state for all the virtual CPUs (tmR3CpuLoadTimer). */ TMCPULOADSTATE CpuLoad; /** TMR3TimerQueuesDo * @{ */ STAMPROFILE StatDoQueues; STAMPROFILEADV aStatDoQueues[TMCLOCK_MAX]; /** @} */ /** tmSchedule * @{ */ STAMPROFILE StatScheduleOneRZ; STAMPROFILE StatScheduleOneR3; STAMCOUNTER StatScheduleSetFF; STAMCOUNTER StatPostponedR3; STAMCOUNTER StatPostponedRZ; /** @} */ /** Read the time * @{ */ STAMCOUNTER StatVirtualGet; STAMCOUNTER StatVirtualGetSetFF; STAMCOUNTER StatVirtualSyncGet; STAMCOUNTER StatVirtualSyncGetAdjLast; STAMCOUNTER StatVirtualSyncGetELoop; STAMCOUNTER StatVirtualSyncGetExpired; STAMCOUNTER StatVirtualSyncGetLockless; STAMCOUNTER StatVirtualSyncGetLocked; STAMCOUNTER StatVirtualSyncGetSetFF; STAMCOUNTER StatVirtualPause; STAMCOUNTER StatVirtualResume; /** @} */ /** TMTimerPoll * @{ */ STAMCOUNTER StatPoll; STAMCOUNTER StatPollAlreadySet; STAMCOUNTER StatPollELoop; STAMCOUNTER StatPollMiss; STAMCOUNTER StatPollRunning; STAMCOUNTER StatPollSimple; STAMCOUNTER StatPollVirtual; STAMCOUNTER StatPollVirtualSync; /** @} */ /** TMTimerSet sans virtual sync timers. * @{ */ STAMCOUNTER StatTimerSet; STAMCOUNTER StatTimerSetOpt; STAMPROFILE StatTimerSetRZ; STAMPROFILE StatTimerSetR3; STAMCOUNTER StatTimerSetStStopped; STAMCOUNTER StatTimerSetStExpDeliver; STAMCOUNTER StatTimerSetStActive; STAMCOUNTER StatTimerSetStPendStop; STAMCOUNTER StatTimerSetStPendStopSched; STAMCOUNTER StatTimerSetStPendSched; STAMCOUNTER StatTimerSetStPendResched; STAMCOUNTER StatTimerSetStOther; /** @} */ /** TMTimerSet on virtual sync timers. * @{ */ STAMCOUNTER StatTimerSetVs; STAMPROFILE StatTimerSetVsRZ; STAMPROFILE StatTimerSetVsR3; STAMCOUNTER StatTimerSetVsStStopped; STAMCOUNTER StatTimerSetVsStExpDeliver; STAMCOUNTER StatTimerSetVsStActive; /** @} */ /** TMTimerSetRelative sans virtual sync timers * @{ */ STAMCOUNTER StatTimerSetRelative; STAMPROFILE StatTimerSetRelativeRZ; STAMPROFILE StatTimerSetRelativeR3; STAMCOUNTER StatTimerSetRelativeOpt; STAMCOUNTER StatTimerSetRelativeStStopped; STAMCOUNTER StatTimerSetRelativeStExpDeliver; STAMCOUNTER StatTimerSetRelativeStActive; STAMCOUNTER StatTimerSetRelativeStPendStop; STAMCOUNTER StatTimerSetRelativeStPendStopSched; STAMCOUNTER StatTimerSetRelativeStPendSched; STAMCOUNTER StatTimerSetRelativeStPendResched; STAMCOUNTER StatTimerSetRelativeStOther; /** @} */ /** TMTimerSetRelative on virtual sync timers. * @{ */ STAMCOUNTER StatTimerSetRelativeVs; STAMPROFILE StatTimerSetRelativeVsRZ; STAMPROFILE StatTimerSetRelativeVsR3; STAMCOUNTER StatTimerSetRelativeVsStStopped; STAMCOUNTER StatTimerSetRelativeVsStExpDeliver; STAMCOUNTER StatTimerSetRelativeVsStActive; /** @} */ /** TMTimerStop sans virtual sync. * @{ */ STAMPROFILE StatTimerStopRZ; STAMPROFILE StatTimerStopR3; /** @} */ /** TMTimerStop on virtual sync timers. * @{ */ STAMPROFILE StatTimerStopVsRZ; STAMPROFILE StatTimerStopVsR3; /** @} */ /** VirtualSync - Running and Catching Up * @{ */ STAMCOUNTER StatVirtualSyncRun; STAMCOUNTER StatVirtualSyncRunRestart; STAMPROFILE StatVirtualSyncRunSlack; STAMCOUNTER StatVirtualSyncRunStop; STAMCOUNTER StatVirtualSyncRunStoppedAlready; STAMCOUNTER StatVirtualSyncGiveUp; STAMCOUNTER StatVirtualSyncGiveUpBeforeStarting; STAMPROFILEADV StatVirtualSyncCatchup; STAMCOUNTER aStatVirtualSyncCatchupInitial[TM_MAX_CATCHUP_PERIODS]; STAMCOUNTER aStatVirtualSyncCatchupAdjust[TM_MAX_CATCHUP_PERIODS]; /** @} */ /** TMR3VirtualSyncFF (non dedicated EMT). */ STAMPROFILE StatVirtualSyncFF; /** The timer callback. */ STAMCOUNTER StatTimerCallbackSetFF; STAMCOUNTER StatTimerCallback; /** Calls to TMCpuTickSet. */ STAMCOUNTER StatTSCSet; /** TSC starts and stops. */ STAMCOUNTER StatTSCPause; STAMCOUNTER StatTSCResume; /** @name Reasons for refusing TSC offsetting in TMCpuTickCanUseRealTSC. * @{ */ STAMCOUNTER StatTSCNotFixed; STAMCOUNTER StatTSCNotTicking; STAMCOUNTER StatTSCCatchupLE010; STAMCOUNTER StatTSCCatchupLE025; STAMCOUNTER StatTSCCatchupLE100; STAMCOUNTER StatTSCCatchupOther; STAMCOUNTER StatTSCWarp; STAMCOUNTER StatTSCUnderflow; STAMCOUNTER StatTSCSyncNotTicking; /** @} */ } TM; /** Pointer to TM VM instance data. */ typedef TM *PTM; /** * TM VMCPU Instance data. * Changes to this must checked against the padding of the tm union in VM! */ typedef struct TMCPU { /** Offset to the VMCPU structure. * See TMCPU2VM(). */ RTUINT offVMCPU; /** CPU timestamp ticking enabled indicator (bool). (RDTSC) */ bool fTSCTicking; bool afAlignment0[3]; /**< alignment padding */ /** The offset between the host tick (TSC/virtual depending on the TSC mode) and * the guest tick. */ uint64_t offTSCRawSrc; /** The guest TSC when fTicking is cleared. */ uint64_t u64TSC; /** The last seen TSC by the guest. */ uint64_t u64TSCLastSeen; #ifndef VBOX_WITHOUT_NS_ACCOUNTING /** The nanosecond timestamp of the CPU start or resume. * This is recalculated when the VM is started so that * cNsTotal = RTTimeNanoTS() - u64NsTsStartCpu. */ uint64_t u64NsTsStartTotal; /** The nanosecond timestamp of the last start-execute notification. */ uint64_t u64NsTsStartExecuting; /** The nanosecond timestamp of the last start-halt notification. */ uint64_t u64NsTsStartHalting; /** The cNsXXX generation. */ uint32_t volatile uTimesGen; /** Explicit alignment padding. */ uint32_t u32Alignment; /** The number of nanoseconds total run time. * @remarks This is updated when cNsExecuting and cNsHalted are updated. */ uint64_t cNsTotal; /** The number of nanoseconds spent executing. */ uint64_t cNsExecuting; /** The number of nanoseconds being halted. */ uint64_t cNsHalted; /** The number of nanoseconds spent on other things. * @remarks This is updated when cNsExecuting and cNsHalted are updated. */ uint64_t cNsOther; /** The number of halts. */ uint64_t cPeriodsHalted; /** The number of guest execution runs. */ uint64_t cPeriodsExecuting; # if defined(VBOX_WITH_STATISTICS) || defined(VBOX_WITH_NS_ACCOUNTING_STATS) /** Resettable version of cNsTotal. */ STAMCOUNTER StatNsTotal; /** Resettable version of cNsExecuting. */ STAMPROFILE StatNsExecuting; /** Long execution intervals. */ STAMPROFILE StatNsExecLong; /** Short execution intervals . */ STAMPROFILE StatNsExecShort; /** Tiny execution intervals . */ STAMPROFILE StatNsExecTiny; /** Resettable version of cNsHalted. */ STAMPROFILE StatNsHalted; /** Resettable version of cNsOther. */ STAMPROFILE StatNsOther; # endif /** CPU load state for this virtual CPU (tmR3CpuLoadTimer). */ TMCPULOADSTATE CpuLoad; #endif } TMCPU; /** Pointer to TM VMCPU instance data. */ typedef TMCPU *PTMCPU; const char *tmTimerState(TMTIMERSTATE enmState); void tmTimerQueueSchedule(PVM pVM, PTMTIMERQUEUE pQueue); #ifdef VBOX_STRICT void tmTimerQueuesSanityChecks(PVM pVM, const char *pszWhere); #endif uint64_t tmR3CpuTickGetRawVirtualNoCheck(PVM pVM); int tmCpuTickPause(PVMCPU pVCpu); int tmCpuTickPauseLocked(PVM pVM, PVMCPU pVCpu); int tmCpuTickResume(PVM pVM, PVMCPU pVCpu); int tmCpuTickResumeLocked(PVM pVM, PVMCPU pVCpu); int tmVirtualPauseLocked(PVM pVM); int tmVirtualResumeLocked(PVM pVM); DECLCALLBACK(DECLEXPORT(void)) tmVirtualNanoTSBad(PRTTIMENANOTSDATA pData, uint64_t u64NanoTS, uint64_t u64DeltaPrev, uint64_t u64PrevNanoTS); DECLCALLBACK(DECLEXPORT(uint64_t)) tmVirtualNanoTSRediscover(PRTTIMENANOTSDATA pData); DECLCALLBACK(DECLEXPORT(uint64_t)) tmVirtualNanoTSBadCpuIndex(PRTTIMENANOTSDATA pData, uint16_t idApic, uint16_t iCpuSet, uint16_t iGipCpu); /** * Try take the timer lock, wait in ring-3 return VERR_SEM_BUSY in R0/RC. * * @retval VINF_SUCCESS on success (always in ring-3). * @retval VERR_SEM_BUSY in RC and R0 if the semaphore is busy. * * @param a_pVM Pointer to the VM. * * @remarks The virtual sync timer queue requires the virtual sync lock. */ #define TM_LOCK_TIMERS(a_pVM) PDMCritSectEnter(&(a_pVM)->tm.s.TimerCritSect, VERR_SEM_BUSY) /** * Try take the timer lock, no waiting. * * @retval VINF_SUCCESS on success. * @retval VERR_SEM_BUSY if busy. * * @param a_pVM Pointer to the VM. * * @remarks The virtual sync timer queue requires the virtual sync lock. */ #define TM_TRY_LOCK_TIMERS(a_pVM) PDMCritSectTryEnter(&(a_pVM)->tm.s.TimerCritSect) /** Lock the timers (sans the virtual sync queue). */ #define TM_UNLOCK_TIMERS(a_pVM) do { PDMCritSectLeave(&(a_pVM)->tm.s.TimerCritSect); } while (0) /** Checks that the caller owns the timer lock. */ #define TM_ASSERT_TIMER_LOCK_OWNERSHIP(a_pVM) \ Assert(PDMCritSectIsOwner(&(a_pVM)->tm.s.TimerCritSect)) /** @} */ RT_C_DECLS_END #endif