/* $Id: SUPDrvInternal.h 101358 2023-10-05 15:24:57Z vboxsync $ */ /** @file * VirtualBox Support Driver - Internal header. */ /* * Copyright (C) 2006-2023 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 . * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL), a copy of it is provided in the "COPYING.CDDL" file included * in the VirtualBox distribution, in which case the provisions of the * CDDL are applicable instead of those of the GPL. * * You may elect to license modified versions of this file under the * terms and conditions of either the GPL or the CDDL or both. * * SPDX-License-Identifier: GPL-3.0-only OR CDDL-1.0 */ #ifndef VBOX_INCLUDED_SRC_Support_SUPDrvInternal_h #define VBOX_INCLUDED_SRC_Support_SUPDrvInternal_h #ifndef RT_WITHOUT_PRAGMA_ONCE # pragma once #endif /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #include #include #include #include #include #include #include #include #include #include #if defined(SUPDRV_AGNOSTIC) && !defined(RT_OS_LINUX) /* do nothing */ #elif defined(RT_OS_WINDOWS) # include # include #elif defined(RT_OS_LINUX) # include # if RTLNX_VER_MIN(2,6,33) # include # else # ifndef AUTOCONF_INCLUDED # include # endif # endif # if defined(CONFIG_MODVERSIONS) && !defined(MODVERSIONS) # define MODVERSIONS # if RTLNX_VER_MAX(2,5,71) # include # endif # endif # ifndef KBUILD_STR # if RTLNX_VER_MAX(2,6,16) # define KBUILD_STR(s) s # else # define KBUILD_STR(s) #s # endif # endif # ifndef SUPDRV_AGNOSTIC # include # include # include # if RTLNX_VER_MIN(2,6,27) # include # else /* older kernels */ # include # endif /* older kernels */ # include # endif # if RTLNX_VER_MIN(3,2,0) # include # else # include # if (defined(RT_ARCH_X86) || defined(RT_ARCH_AMD64)) && defined(SUPDRV_AGNOSTIC) /* fix conflicts with iprt/x86.h */ # undef CS # undef DS # undef ES # undef FS # undef GS # undef SS # undef EFLAGS # undef R15 # undef R14 # undef R13 # undef R12 # undef R11 # undef R10 # undef R9 # undef R8 # undef RDI # undef RSI # undef RBP # undef RSP # undef RBX # undef RDX # undef RCX # undef RAX # undef MSR_CORE_PERF_LIMIT_REASONS # undef MSR_DRAM_ENERGY_STATUS # undef MSR_DRAM_PERF_STATUS # undef MSR_DRAM_POWER_INFO # undef MSR_DRAM_POWER_LIMIT # undef MSR_IA32_APERF # undef MSR_IA32_ARCH_CAPABILITIES # undef MSR_IA32_CR_PAT # undef MSR_IA32_DS_AREA # undef MSR_IA32_FEATURE_CONTROL # undef MSR_IA32_FLUSH_CMD # undef MSR_IA32_MC0_CTL # undef MSR_IA32_MC0_STATUS # undef MSR_IA32_MCG_CAP # undef MSR_IA32_MCG_STATUS # undef MSR_IA32_MISC_ENABLE # undef MSR_IA32_MISC_ENABLE_BTS_UNAVAIL # undef MSR_IA32_MISC_ENABLE_LIMIT_CPUID # undef MSR_IA32_MISC_ENABLE_PEBS_UNAVAIL # undef MSR_IA32_MISC_ENABLE_TCC # undef MSR_IA32_MISC_ENABLE_XD_DISABLE # undef MSR_IA32_MPERF # undef MSR_IA32_PEBS_ENABLE # undef MSR_IA32_PERF_CTL # undef MSR_IA32_PERF_STATUS # undef MSR_IA32_PLATFORM_ID # undef MSR_IA32_PMC0 # undef MSR_IA32_PRED_CMD # undef MSR_IA32_RTIT_CTL # undef MSR_IA32_SMBASE # undef MSR_IA32_SMM_MONITOR_CTL # undef MSR_IA32_SPEC_CTRL # undef MSR_IA32_THERM_STATUS # undef MSR_IA32_TSC # undef MSR_IA32_TSC_ADJUST # undef MSR_IA32_TSX_CTRL # undef MSR_IA32_VMX_BASIC # undef MSR_IA32_VMX_CR0_FIXED0 # undef MSR_IA32_VMX_CR0_FIXED1 # undef MSR_IA32_VMX_CR4_FIXED0 # undef MSR_IA32_VMX_CR4_FIXED1 # undef MSR_IA32_VMX_ENTRY_CTLS # undef MSR_IA32_VMX_EPT_VPID_CAP # undef MSR_IA32_VMX_EXIT_CTLS # undef MSR_IA32_VMX_MISC # undef MSR_IA32_VMX_PINBASED_CTLS # undef MSR_IA32_VMX_PROCBASED_CTLS # undef MSR_IA32_VMX_PROCBASED_CTLS2 # undef MSR_IA32_VMX_TRUE_ENTRY_CTLS # undef MSR_IA32_VMX_TRUE_EXIT_CTLS # undef MSR_IA32_VMX_TRUE_PINBASED_CTLS # undef MSR_IA32_VMX_TRUE_PROCBASED_CTLS # undef MSR_IA32_VMX_VMCS_ENUM # undef MSR_IA32_VMX_VMFUNC # undef MSR_K6_PFIR # undef MSR_K6_PSOR # undef MSR_K6_UWCCR # undef MSR_K6_WHCR # undef MSR_K7_EVNTSEL0 # undef MSR_K7_EVNTSEL1 # undef MSR_K7_EVNTSEL2 # undef MSR_K7_EVNTSEL3 # undef MSR_K7_PERFCTR0 # undef MSR_K7_PERFCTR1 # undef MSR_K7_PERFCTR2 # undef MSR_K7_PERFCTR3 # undef MSR_K8_SYSCFG # undef MSR_K8_TOP_MEM1 # undef MSR_K8_TOP_MEM2 # undef MSR_OFFCORE_RSP_0 # undef MSR_OFFCORE_RSP_1 # undef MSR_PKG_C10_RESIDENCY # undef MSR_PKG_C2_RESIDENCY # undef MSR_PKG_CST_CONFIG_CONTROL # undef MSR_PKG_ENERGY_STATUS # undef MSR_PKG_PERF_STATUS # undef MSR_PKG_POWER_INFO # undef MSR_PKG_POWER_LIMIT # undef MSR_PKGC3_IRTL # undef MSR_PP0_ENERGY_STATUS # undef MSR_PP1_ENERGY_STATUS # undef MSR_RAPL_POWER_UNIT # undef MSR_TURBO_ACTIVATION_RATIO # undef VMX_BASIC_MEM_TYPE_WB # undef X86_CR0_AM # undef X86_CR0_CD # undef X86_CR0_EM # undef X86_CR0_ET # undef X86_CR0_MP # undef X86_CR0_NE # undef X86_CR0_NW # undef X86_CR0_PE # undef X86_CR0_PG # undef X86_CR0_TS # undef X86_CR0_WP # undef X86_CR3_PCD # undef X86_CR3_PWT # undef X86_CR4_DE # undef X86_CR4_FSGSBASE # undef X86_CR4_MCE # undef X86_CR4_OSFXSR # undef X86_CR4_OSXSAVE # undef X86_CR4_PAE # undef X86_CR4_PCE # undef X86_CR4_PCIDE # undef X86_CR4_PGE # undef X86_CR4_PKE # undef X86_CR4_PSE # undef X86_CR4_PVI # undef X86_CR4_SMAP # undef X86_CR4_SMEP # undef X86_CR4_SMXE # undef X86_CR4_TSD # undef X86_CR4_UMIP # undef X86_CR4_VME # undef X86_CR4_VMXE # endif # endif # define SUPR0_EXPORT_SYMBOL(a_Name) EXPORT_SYMBOL(a_Name) #elif defined(RT_OS_DARWIN) # include # include #elif defined(RT_OS_OS2) #elif defined(RT_OS_FREEBSD) # define memset libkern_memset /** @todo these are just hacks to get it compiling, check out later. */ # define memcmp libkern_memcmp # define strchr libkern_strchr # define strrchr libkern_strrchr # define ffsl libkern_ffsl # define fls libkern_fls # define flsl libkern_flsl # include # undef memset # undef memcmp # undef strchr # undef strrchr # undef ffs # undef ffsl # undef fls # undef flsl # include #elif defined(RT_OS_SOLARIS) # include # include #else # error "unsupported OS." #endif #include "SUPDrvIOC.h" #include "SUPDrvIDC.h" /********************************************************************************************************************************* * Defined Constants And Macros * *********************************************************************************************************************************/ /* * Hardcoded cookies. */ #define BIRD 0x64726962 /* 'bird' */ #define BIRD_INV 0x62697264 /* 'drib' */ #ifdef RT_OS_WINDOWS /** Use a normal mutex for the loader so we remain at the same IRQL after * taking it. * @todo fix the mutex implementation on linux and make this the default. */ # define SUPDRV_USE_MUTEX_FOR_LDR /** Use a normal mutex for the GIP so we remain at the same IRQL after * taking it. * @todo fix the mutex implementation on linux and make this the default. */ # define SUPDRV_USE_MUTEX_FOR_GIP #endif #ifndef SUPR0_EXPORT_SYMBOL # define SUPR0_EXPORT_SYMBOL(a_Name) extern int g_supDrvExportSymbolDummyVariable #endif /** * OS debug print macro. */ #define OSDBGPRINT(a) SUPR0Printf a /** @name Context values for the per-session handle tables. * The context value is used to distinguish between the different kinds of * handles, making the handle table API do all the work. * @{ */ /** Handle context value for single release event handles. */ #define SUPDRV_HANDLE_CTX_EVENT ((void *)(uintptr_t)(SUPDRVOBJTYPE_SEM_EVENT)) /** Handle context value for multiple release event handles. */ #define SUPDRV_HANDLE_CTX_EVENT_MULTI ((void *)(uintptr_t)(SUPDRVOBJTYPE_SEM_EVENT_MULTI)) /** @} */ /** * Validates a session pointer. * * @returns true/false accordingly. * @param pSession The session. */ #define SUP_IS_SESSION_VALID(pSession) \ ( RT_VALID_PTR(pSession) \ && pSession->u32Cookie == BIRD_INV) /** * Validates a device extension pointer. * * @returns true/false accordingly. * @param pDevExt The device extension. */ #define SUP_IS_DEVEXT_VALID(pDevExt) \ ( RT_VALID_PTR(pDevExt) \ && pDevExt->u32Cookie == BIRD) /** @def SUPDRV_WITH_MSR_PROBER * Enables the SUP_IOCTL_MSR_PROBER function. * By default, only enabled in DEBUG builds as it's a sensitive feature. */ #if defined(DEBUG) && !defined(SUPDRV_WITH_MSR_PROBER) && !defined(SUPDRV_WITHOUT_MSR_PROBER) # define SUPDRV_WITH_MSR_PROBER #endif /** @def SUPDRV_WITHOUT_MSR_PROBER * Executive overide for disabling the SUP_IOCTL_MSR_PROBER function. */ #ifdef SUPDRV_WITHOUT_MSR_PROBER # undef SUPDRV_WITH_MSR_PROBER #endif #ifdef DOXYGEN_RUNNING # define SUPDRV_WITH_MSR_PROBER # define SUPDRV_WITHOUT_MSR_PROBER #endif #if 1 /** @def SUPDRV_USE_TSC_DELTA_THREAD * Use a dedicated kernel thread to service TSC-delta measurement requests. * @todo Test on servers with many CPUs and sockets. */ # define SUPDRV_USE_TSC_DELTA_THREAD #endif /********************************************************************************************************************************* * Structures and Typedefs * *********************************************************************************************************************************/ /** Pointer to the device extension. */ typedef struct SUPDRVDEVEXT *PSUPDRVDEVEXT; #ifdef SUPDRV_USE_TSC_DELTA_THREAD /** * TSC-delta measurement thread state machine. */ typedef enum SUPDRVTSCDELTATHREADSTATE { /** Uninitialized/invalid value. */ kTscDeltaThreadState_Invalid = 0, /** The thread is being created. * Next state: Listening, Butchered, Terminating */ kTscDeltaThreadState_Creating, /** The thread is listening for events. * Previous state: Creating, Measuring * Next state: WaitAndMeasure, Butchered, Terminated */ kTscDeltaThreadState_Listening, /** The thread is sleeping before starting a measurement. * Previous state: Listening, Measuring * Next state: Measuring, Butchered, Terminating * @remarks The thread won't enter this state on its own, it is put into this * state by the GIP timer, the CPU online callback and by the * SUP_IOCTL_TSC_DELTA_MEASURE code. */ kTscDeltaThreadState_WaitAndMeasure, /** The thread is currently servicing a measurement request. * Previous state: WaitAndMeasure * Next state: Listening, WaitAndMeasure, Terminate */ kTscDeltaThreadState_Measuring, /** The thread is terminating. * @remarks The thread won't enter this state on its own, is put into this state * by supdrvTscDeltaTerm. */ kTscDeltaThreadState_Terminating, /** The thread is butchered due to an unexpected error. * Previous State: Creating, Listening, WaitAndMeasure */ kTscDeltaThreadState_Butchered, /** The thread is destroyed (final). * Previous state: Terminating */ kTscDeltaThreadState_Destroyed, /** The usual 32-bit blowup hack. */ kTscDeltaThreadState_32BitHack = 0x7fffffff } SUPDRVTSCDELTATHREADSTATE; #endif /* SUPDRV_USE_TSC_DELTA_THREAD */ /** * Memory reference types. */ typedef enum { /** Unused entry */ MEMREF_TYPE_UNUSED = 0, /** Locked memory (r3 mapping only). */ MEMREF_TYPE_LOCKED, /** Continuous memory block (r3 and r0 mapping). */ MEMREF_TYPE_CONT, /** Low memory block (r3 and r0 mapping). */ MEMREF_TYPE_LOW, /** Memory block (r3 and r0 mapping). */ MEMREF_TYPE_MEM, /** Locked memory (r3 mapping only) allocated by the support driver. */ MEMREF_TYPE_PAGE, /** Blow the type up to 32-bit and mark the end. */ MEMREF_TYPE_32BIT_HACK = 0x7fffffff } SUPDRVMEMREFTYPE, *PSUPDRVMEMREFTYPE; /** * Structure used for tracking memory a session * references in one way or another. */ typedef struct SUPDRVMEMREF { /** The memory object handle. */ RTR0MEMOBJ MemObj; /** The ring-3 mapping memory object handle. */ RTR0MEMOBJ MapObjR3; /** Type of memory. */ SUPDRVMEMREFTYPE eType; } SUPDRVMEMREF, *PSUPDRVMEMREF; /** * Bundle of locked memory ranges. */ typedef struct SUPDRVBUNDLE { /** Pointer to the next bundle. */ struct SUPDRVBUNDLE * volatile pNext; /** Referenced memory. */ SUPDRVMEMREF aMem[64]; /** Number of entries used. */ uint32_t volatile cUsed; } SUPDRVBUNDLE, *PSUPDRVBUNDLE; /** * Loaded image. */ typedef struct SUPDRVLDRIMAGE { /** Next in chain. */ struct SUPDRVLDRIMAGE * volatile pNext; /** Pointer to the image. */ void *pvImage; /** The memory object for the module allocation. */ RTR0MEMOBJ hMemObjImage; /** Magic value (SUPDRVLDRIMAGE_MAGIC). */ uint32_t uMagic; /** Size of the image including the tables. This is mainly for verification * of the load request. */ uint32_t cbImageWithEverything; /** Size of the image. */ uint32_t cbImageBits; /** The number of entries in the symbol table. */ uint32_t cSymbols; /** Pointer to the symbol table. */ PSUPLDRSYM paSymbols; /** The offset of the string table. */ char *pachStrTab; /** Size of the string table. */ uint32_t cbStrTab; /** Number of segments. */ uint32_t cSegments; /** Segments (for memory protection). */ PSUPLDRSEG paSegments; /** Pointer to the optional module initialization callback. */ PFNR0MODULEINIT pfnModuleInit; /** Pointer to the optional module termination callback. */ PFNR0MODULETERM pfnModuleTerm; /** Service request handler. This is NULL for non-service modules. */ PFNSUPR0SERVICEREQHANDLER pfnServiceReqHandler; /** The ldr image state. (IOCtl code of last operation.) */ uint32_t uState; /** Usage count. */ uint32_t volatile cImgUsage; /** Pointer to the device extension. */ struct SUPDRVDEVEXT *pDevExt; /** Image (VMMR0.r0) containing functions/data that this one uses. */ struct SUPDRVLDRIMAGE *pImageImport; #ifdef RT_OS_WINDOWS /** The section object for the loaded image (fNative=true). */ void *pvNtSectionObj; /** Lock object. */ RTR0MEMOBJ hMemLock; #endif #if defined(RT_OS_SOLARIS) && defined(VBOX_WITH_NATIVE_SOLARIS_LOADING) /** The Solaris module ID. */ int idSolMod; /** Pointer to the module control structure. */ struct modctl *pSolModCtl; #endif #ifdef RT_OS_LINUX /** Hack for seeing the module in perf, dtrace and other stack crawlers. */ struct module *pLnxModHack; /** The wrapper module. */ struct module *pLnxWrapperModule; /** Set if we're holding a reference to the wrapper module. */ bool fLnxWrapperRef; #endif #if defined(RT_OS_DARWIN) && defined(VBOX_WITH_DARWIN_R0_DARWIN_IMAGE_VERIFICATION) /** Load module handle. */ RTLDRMOD hLdrMod; /** Allocate object. */ RTR0MEMOBJ hMemAlloc; #endif /** This points to the module info if the image is a wrapped up in a native one. */ PCSUPLDRWRAPPEDMODULE pWrappedModInfo; /** OS specific information for wrapped modules. */ void *pvWrappedNative; /** Whether it's loaded by the native loader or not. */ bool fNative; /** Image name. */ char szName[32]; } SUPDRVLDRIMAGE, *PSUPDRVLDRIMAGE; /** Magic value for SUPDRVLDRIMAGE::uMagic (Charlotte Bronte). */ #define SUPDRVLDRIMAGE_MAGIC UINT32_C(0x18160421) /** Magic value for SUPDRVLDRIMAGE::uMagic when freed. */ #define SUPDRVLDRIMAGE_MAGIC_DEAD UINT32_C(0x18550331) /** Image usage record. */ typedef struct SUPDRVLDRUSAGE { /** Next in chain. */ struct SUPDRVLDRUSAGE * volatile pNext; /** The image. */ PSUPDRVLDRIMAGE pImage; /** Load count (ring-3). */ uint32_t volatile cRing3Usage; /** Ring-0 usage counter. */ uint32_t volatile cRing0Usage; } SUPDRVLDRUSAGE, *PSUPDRVLDRUSAGE; /** * Component factory registration record. */ typedef struct SUPDRVFACTORYREG { /** Pointer to the next registration. */ struct SUPDRVFACTORYREG *pNext; /** Pointer to the registered factory. */ PCSUPDRVFACTORY pFactory; /** The session owning the factory. * Used for deregistration and session cleanup. */ PSUPDRVSESSION pSession; /** Length of the name. */ size_t cchName; } SUPDRVFACTORYREG; /** Pointer to a component factory registration record. */ typedef SUPDRVFACTORYREG *PSUPDRVFACTORYREG; /** Pointer to a const component factory registration record. */ typedef SUPDRVFACTORYREG const *PCSUPDRVFACTORYREG; /** * Registered object. * This takes care of reference counting and tracking data for access checks. */ typedef struct SUPDRVOBJ { /** Magic value (SUPDRVOBJ_MAGIC). */ uint32_t u32Magic; /** The object type. */ SUPDRVOBJTYPE enmType; /** Pointer to the next in the global list. */ struct SUPDRVOBJ * volatile pNext; /** Pointer to the object destructor. * This may be set to NULL if the image containing the destructor get unloaded. */ PFNSUPDRVDESTRUCTOR pfnDestructor; /** User argument 1. */ void *pvUser1; /** User argument 2. */ void *pvUser2; /** The total sum of all per-session usage. */ uint32_t volatile cUsage; /** The creator user id. */ RTUID CreatorUid; /** The creator group id. */ RTGID CreatorGid; /** The creator process id. */ RTPROCESS CreatorProcess; } SUPDRVOBJ, *PSUPDRVOBJ; /** Magic number for SUPDRVOBJ::u32Magic. (Dame Agatha Mary Clarissa Christie). */ #define SUPDRVOBJ_MAGIC UINT32_C(0x18900915) /** Dead number magic for SUPDRVOBJ::u32Magic. */ #define SUPDRVOBJ_MAGIC_DEAD UINT32_C(0x19760112) /** * The per-session object usage record. */ typedef struct SUPDRVUSAGE { /** Pointer to the next in the list. */ struct SUPDRVUSAGE * volatile pNext; /** Pointer to the object we're recording usage for. */ PSUPDRVOBJ pObj; /** The usage count. */ uint32_t volatile cUsage; } SUPDRVUSAGE, *PSUPDRVUSAGE; /** * I/O control context. */ typedef struct SUPR0IOCTLCTX { /** Magic value (SUPR0IOCTLCTX_MAGIC). */ uint32_t u32Magic; /** Reference counter. */ uint32_t volatile cRefs; #ifdef RT_OS_WINDOWS # ifndef SUPDRV_AGNOSTIC /** The file object, referenced. */ PFILE_OBJECT pFileObject; /** The device object, not referenced. */ PDEVICE_OBJECT pDeviceObject; /** Pointer to fast I/O routine if available. */ FAST_IO_DEVICE_CONTROL *pfnFastIoDeviceControl; # else void *apvPadding[3]; # endif #endif } SUPR0IOCTLCTX; /** Magic value for SUPR0IOCTLCTX (Ahmad Jamal). */ #define SUPR0IOCTLCTX_MAGIC UINT32_C(0x19300702) /** * Per session data. * This is mainly for memory tracking. */ typedef struct SUPDRVSESSION { /** Pointer to the device extension. */ PSUPDRVDEVEXT pDevExt; /** Session Cookie. */ uint32_t u32Cookie; /** Set if is an unrestricted session, clear if restricted. */ bool fUnrestricted; /** Set if we're in the hash table, clear if not. Protected by the hash * table spinlock. */ bool fInHashTable; /** Reference counter. */ uint32_t volatile cRefs; /** Pointer to the next session with the same hash (common hash table). * Protected by the hash table spinlock. */ PSUPDRVSESSION pCommonNextHash; /** Pointer to the OS specific session pointer, if available and in use. * This is atomically set and cleared as the session is inserted and removed * from the hash table (protected by the session hash table spinlock). */ PSUPDRVSESSION *ppOsSessionPtr; /** The process (id) of the session. */ RTPROCESS Process; /** Which process this session is associated with. * This is NIL_RTR0PROCESS for kernel sessions and valid for user ones. */ RTR0PROCESS R0Process; /** The GVM associated with the session. * This is set by VMMR0. */ PGVM pSessionGVM; /** The VM associated with the session. * This is set by VMMR0. */ PVM pSessionVM; /** Set to pSessionVM if fast I/O controlls are enabled. */ PVM pFastIoCtrlVM; /** Handle table for IPRT semaphore wrapper APIs. * This takes care of its own locking in an IRQ safe manner. */ RTHANDLETABLE hHandleTable; /** Load usage records (LIFO!). (protected by SUPDRVDEVEXT::mtxLdr) */ PSUPDRVLDRUSAGE volatile pLdrUsage; /** Spinlock protecting the bundles, the GIP members and the * fProcessCleanupDone flag. It continues to be valid until the last * reference to the session is released. */ RTSPINLOCK Spinlock; /** The ring-3 mapping of the GIP (readonly). */ RTR0MEMOBJ GipMapObjR3; /** Set if the session is using the GIP. */ uint32_t fGipReferenced; /** Bundle of locked memory objects. */ SUPDRVBUNDLE Bundle; /** List of generic usage records. (protected by SUPDRVDEVEXT::SpinLock) */ PSUPDRVUSAGE volatile pUsage; /** The user id of the session - set by the OS part or NIL_RTUID. * This should be unique accross namespace/zones/whatever. */ RTUID Uid; /** The group id of the session - set by the OS part or NIL_RTGID. * This should be unique accross namespace/zones/whatever. */ RTGID Gid; /** Per session tracer specfic data. */ uintptr_t uTracerData; /** The thread currently actively talking to the tracer. (One at the time!) */ RTNATIVETHREAD hTracerCaller; /** List of tracepoint providers associated with the session * (SUPDRVTPPROVIDER). */ RTLISTANCHOR TpProviders; /** The number of providers in TpProviders. */ uint32_t cTpProviders; /** The number of threads active in supdrvIOCtl_TracerUmodProbeFire or * SUPR0TracerUmodProbeFire. */ uint32_t volatile cTpProbesFiring; /** User tracepoint modules (PSUPDRVTRACKERUMOD). */ RTLISTANCHOR TpUmods; /** The user tracepoint module lookup table. */ struct SUPDRVTRACERUMOD *apTpLookupTable[32]; /** Whether this is a GIP test-mode client session or not. */ bool fGipTestMode; #ifndef SUPDRV_AGNOSTIC # if defined(RT_OS_DARWIN) /** Pointer to the associated org_virtualbox_SupDrvClient object. */ void *pvSupDrvClient; /** Whether this session has been opened or not. */ bool fOpened; # endif # if defined(RT_OS_OS2) /** The system file number of this session. */ uint16_t sfn; uint16_t Alignment; /**< Alignment */ # endif # if defined(RT_OS_DARWIN) || defined(RT_OS_OS2) || defined(RT_OS_SOLARIS) /** Pointer to the next session with the same hash. */ PSUPDRVSESSION pNextHash; # endif # if defined(RT_OS_WINDOWS) && defined(VBOX_WITH_HARDENING) /** Pointer to the process protection structure for this session. */ struct SUPDRVNTPROTECT *pNtProtect; # endif # if defined(RT_OS_WINDOWS) /** Reference to the user ID structure corresponding to the Uid member. */ struct SUPDRVNTUSERID *pNtUserId; # endif #endif /* !SUPDRV_AGNOSTIC */ } SUPDRVSESSION; /** * Device extension. */ typedef struct SUPDRVDEVEXT { /** Global cookie. */ uint32_t u32Cookie; /** The actual size of SUPDRVSESSION. (SUPDRV_AGNOSTIC) */ uint32_t cbSession; /** Spinlock to serialize the initialization, usage counting and objects. * This is IRQ safe because we want to be able signal semaphores from the * special HM context (and later maybe interrupt handlers), so we must be able * to reference and dereference handles when IRQs are disabled. */ RTSPINLOCK Spinlock; /** List of registered objects. Protected by the spinlock. */ PSUPDRVOBJ volatile pObjs; /** List of free object usage records. */ PSUPDRVUSAGE volatile pUsageFree; /** Loader mutex. * This protects pvVMMR0, pvVMMR0Entry, pImages and SUPDRVSESSION::pLdrUsage. */ #ifdef SUPDRV_USE_MUTEX_FOR_LDR RTSEMMUTEX mtxLdr; #else RTSEMFASTMUTEX mtxLdr; #endif /** VMM Module 'handle'. * 0 if the code VMM isn't loaded and Idt are nops. */ void * volatile pvVMMR0; /** VMMR0EntryFast() pointer. */ DECLR0CALLBACKMEMBER(void, pfnVMMR0EntryFast, (PGVM pGVM, PVM pVM, VMCPUID idCpu, uint32_t uOperation)); /** VMMR0EntryEx() pointer. */ DECLR0CALLBACKMEMBER(int, pfnVMMR0EntryEx, (PGVM pGVM, PVM pVM, VMCPUID idCpu, uint32_t uOperation, PSUPVMMR0REQHDR pReq, uint64_t u64Arg, PSUPDRVSESSION pSession)); /** Linked list of loaded code. */ PSUPDRVLDRIMAGE volatile pLdrImages; /** Set if the image loading interface got disabled after loading all needed images */ bool fLdrLockedDown; /** @name These members for detecting whether an API caller is in ModuleInit. * Certain APIs are only permitted from ModuleInit, like for instance tracepoint * registration. * @{ */ /** The image currently executing its ModuleInit. */ PSUPDRVLDRIMAGE volatile pLdrInitImage; /** The thread currently executing a ModuleInit function. */ RTNATIVETHREAD volatile hLdrInitThread; /** The thread currently executing a ModuleTerm function. */ RTNATIVETHREAD volatile hLdrTermThread; /** @} */ /** Number of times someone reported bad execution context via SUPR0BadContext. * (This is times EFLAGS.AC is zero when we expected it to be 1.) */ uint32_t volatile cBadContextCalls; /** GIP mutex. * Any changes to any of the GIP members requires ownership of this mutex, * except on driver init and termination. */ #ifdef SUPDRV_USE_MUTEX_FOR_GIP RTSEMMUTEX mtxGip; #else RTSEMFASTMUTEX mtxGip; #endif /** GIP spinlock protecting GIP members during Mp events. * This is IRQ safe since be may get MP callbacks in contexts where IRQs are * disabled (on some platforms). */ RTSPINLOCK hGipSpinlock; /** Pointer to the Global Info Page (GIP). */ PSUPGLOBALINFOPAGE pGip; /** The physical address of the GIP. */ RTHCPHYS HCPhysGip; /** Number of processes using the GIP. * (The updates are suspend while cGipUsers is 0.)*/ uint32_t volatile cGipUsers; /** The ring-0 memory object handle for the GIP page. */ RTR0MEMOBJ GipMemObj; /** The GIP timer handle. */ PRTTIMER pGipTimer; /** If non-zero we've successfully called RTTimerRequestSystemGranularity(). */ uint32_t u32SystemTimerGranularityGrant; /** The CPU id of the GIP master. * This CPU is responsible for the updating the common GIP data and it is * the one used to calculate TSC deltas relative to. * (The initial master will have a 0 zero value, but it it goes offline the * new master may have a non-zero value.) */ RTCPUID volatile idGipMaster; /** Component factory mutex. * This protects pComponentFactoryHead and component factory querying. */ RTSEMFASTMUTEX mtxComponentFactory; /** The head of the list of registered component factories. */ PSUPDRVFACTORYREG pComponentFactoryHead; /** Lock protecting The tracer members. */ RTSEMFASTMUTEX mtxTracer; /** List of tracer providers (SUPDRVTPPROVIDER). */ RTLISTANCHOR TracerProviderList; /** List of zombie tracer providers (SUPDRVTPPROVIDER). */ RTLISTANCHOR TracerProviderZombieList; /** Pointer to the tracer registration record. */ PCSUPDRVTRACERREG pTracerOps; /** The ring-0 session of a native tracer provider. */ PSUPDRVSESSION pTracerSession; /** The image containing the tracer. */ PSUPDRVLDRIMAGE pTracerImage; /** The tracer helpers. */ SUPDRVTRACERHLP TracerHlp; /** The number of session having opened the tracer currently. */ uint32_t cTracerOpens; /** The number of threads currently calling into the tracer. */ uint32_t volatile cTracerCallers; /** Set if the tracer is being unloaded. */ bool fTracerUnloading; /** Hash table for user tracer modules (SUPDRVVTGCOPY). */ RTLISTANCHOR aTrackerUmodHash[128]; /** @name Session Handle Table. * @{ */ /** Spinlock protecting apSessionHashTab, cSessions, * SUPDRVSESSION::ppOsSessionPtr, SUPDRVSESSION::pCommonNextHash, and possibly * others depending on the OS. */ RTSPINLOCK hSessionHashTabSpinlock; /** Session hash table hash table. The size of this table must make sense in * comparison to GVMM_MAX_HANDLES. */ PSUPDRVSESSION apSessionHashTab[HC_ARCH_BITS == 64 ? 8191 : 127]; /** The number of open sessions. */ int32_t cSessions; /** @} */ /** @name Invariant TSC frequency refinement. * @{ */ /** Nanosecond timestamp at the start of the TSC frequency refinement phase. */ uint64_t nsStartInvarTscRefine; /** TSC reading at the start of the TSC frequency refinement phase. */ uint64_t uTscStartInvarTscRefine; /** The CPU id of the CPU that u64TscAnchor was measured on. */ RTCPUID idCpuInvarTscRefine; /** Pointer to the timer used to refine the TSC frequency. */ PRTTIMER pInvarTscRefineTimer; /** Stop the timer on the next tick because we saw a power event. */ bool volatile fInvTscRefinePowerEvent; /** @} */ /** @name TSC-delta measurement. * @{ */ /** Number of online/offline events, incremented each time a CPU goes online * or offline. */ uint32_t volatile cMpOnOffEvents; /** TSC-delta measurement mutext. * At the moment, we don't want to have more than one measurement going on at * any one time. We might be using broadcast IPIs which are heavy and could * perhaps get in each others way. */ #ifdef SUPDRV_USE_MUTEX_FOR_GIP RTSEMMUTEX mtxTscDelta; #else RTSEMFASTMUTEX mtxTscDelta; #endif /** The set of CPUs we need to take measurements for. */ RTCPUSET TscDeltaCpuSet; /** The set of CPUs we have completed taken measurements for. */ RTCPUSET TscDeltaObtainedCpuSet; /** @} */ #ifdef SUPDRV_USE_TSC_DELTA_THREAD /** @name TSC-delta measurement thread. * @{ */ /** Spinlock protecting enmTscDeltaThreadState. */ RTSPINLOCK hTscDeltaSpinlock; /** TSC-delta measurement thread. */ RTTHREAD hTscDeltaThread; /** The event signalled during state changes to the TSC-delta thread. */ RTSEMEVENT hTscDeltaEvent; /** The state of the TSC-delta measurement thread. */ SUPDRVTSCDELTATHREADSTATE enmTscDeltaThreadState; /** Thread timeout time before rechecking state in ms. */ RTMSINTERVAL cMsTscDeltaTimeout; /** Whether the TSC-delta measurement was successful. */ int32_t volatile rcTscDelta; /** Tell the thread we want TSC-deltas for all CPUs with retries. */ bool fTscThreadRecomputeAllDeltas; /** @} */ #endif /** @name GIP test mode. * @{ */ /** Reference counter for GIP test-mode sessions. */ uint32_t cGipTestModeRefs; /** Cache of TSC frequency before enabling test-mode on invariant GIP systems. */ uint64_t uGipTestModeInvariantCpuHz; /** @} */ /* * Note! The non-agnostic bits must be at the very end of the structure! */ #ifndef SUPDRV_AGNOSTIC # ifdef RT_OS_WINDOWS /** Callback object returned by ExCreateCallback. */ PCALLBACK_OBJECT pObjPowerCallback; /** Callback handle returned by ExRegisterCallback. */ PVOID hPowerCallback; # elif defined(RT_OS_DARWIN) && defined(VBOX_WITH_DARWIN_R0_DARWIN_IMAGE_VERIFICATION) /** Trusted root certificates for code signing validation. */ RTCRSTORE hRootStore; /** Intermedite certificates for code signing validation. */ RTCRSTORE hAdditionalStore; # endif #endif } SUPDRVDEVEXT; /** Calculates the index into g_apSessionHashTab.*/ #define SUPDRV_SESSION_HASH(a_pid) ( (a_pid) % RT_ELEMENTS(((SUPDRVDEVEXT *)NULL)->apSessionHashTab) ) RT_C_DECLS_BEGIN /******************************************************************************* * OS Specific Functions * *******************************************************************************/ /** * Called to clean up the session structure before it's freed. * * @param pDevExt The device globals. * @param pSession The session that's being cleaned up. */ void VBOXCALL supdrvOSCleanupSession(PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession); /** * Called to let the OS specfic code perform additional insertion work while * still under the protection of the hash table spinlock. * * @param pDevExt The device globals. * @param pSession The session that was inserted. * @param pvUser User context specified to the insert call. */ void VBOXCALL supdrvOSSessionHashTabInserted(PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession, void *pvUser); /** * Called to let the OS specfic code perform additional removal work while still * under the protection of the hash table spinlock. * * @param pDevExt The device globals. * @param pSession The session that was removed. * @param pvUser User context specified to the remove call. */ void VBOXCALL supdrvOSSessionHashTabRemoved(PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession, void *pvUser); /** * Called during GIP initializtion to calc the CPU group table size. * * This is currently only implemented on windows [lazy bird]. * * @returns Number of bytes needed for SUPGIPCPUGROUP structures. * @param pDevExt The device globals. */ size_t VBOXCALL supdrvOSGipGetGroupTableSize(PSUPDRVDEVEXT pDevExt); /** * Called during GIP initialization to set up the group table and group count. * * This is currently only implemented on windows [lazy bird]. * * @param pDevExt The device globals. * @param pGip The GIP which group table needs initialization. * It's only partially initialized at this point. * @param cbGipCpuGroups What supdrvOSGipGetGroupTableSize returned. */ int VBOXCALL supdrvOSInitGipGroupTable(PSUPDRVDEVEXT pDevExt, PSUPGLOBALINFOPAGE pGip, size_t cbGipCpuGroups); /** * Initializes the group related members when a CPU is added to the GIP. * * This is called both during GIP initalization and during an CPU online event. * * This is currently only implemented on windows [lazy bird]. * * @param pDevExt The device globals. * @param pGip The GIP. * @param pGipCpu The GIP CPU structure being initialized. */ void VBOXCALL supdrvOSGipInitGroupBitsForCpu(PSUPDRVDEVEXT pDevExt, PSUPGLOBALINFOPAGE pGip, PSUPGIPCPU pGipCpu); void VBOXCALL supdrvOSObjInitCreator(PSUPDRVOBJ pObj, PSUPDRVSESSION pSession); bool VBOXCALL supdrvOSObjCanAccess(PSUPDRVOBJ pObj, PSUPDRVSESSION pSession, const char *pszObjName, int *prc); bool VBOXCALL supdrvOSGetForcedAsyncTscMode(PSUPDRVDEVEXT pDevExt); bool VBOXCALL supdrvOSAreCpusOfflinedOnSuspend(void); bool VBOXCALL supdrvOSAreTscDeltasInSync(void); int VBOXCALL supdrvOSEnableVTx(bool fEnabled); RTCCUINTREG VBOXCALL supdrvOSChangeCR4(RTCCUINTREG fOrMask, RTCCUINTREG fAndMask); bool VBOXCALL supdrvOSSuspendVTxOnCpu(void); void VBOXCALL supdrvOSResumeVTxOnCpu(bool fSuspended); int VBOXCALL supdrvOSGetCurrentGdtRw(RTHCUINTPTR *pGdtRw); /** * Try open the image using the native loader. * * @returns IPRT status code. * @retval VERR_NOT_SUPPORTED if native loading isn't supported. * * @param pDevExt The device globals. * @param pImage The image handle. pvImage should be set on * success, pvImageAlloc can also be set if * appropriate. * @param pszFilename The file name - UTF-8, may containing UNIX * slashes on non-UNIX systems. */ int VBOXCALL supdrvOSLdrOpen(PSUPDRVDEVEXT pDevExt, PSUPDRVLDRIMAGE pImage, const char *pszFilename); /** * Notification call indicating that a image is being opened for the first time. * * Called for both native and non-native images (after supdrvOSLdrOpen). Can be * used to log the load address of the image or inform the kernel about the * alien image. * * @param pDevExt The device globals. * @param pImage The image handle. * @param pszFilename The file name - UTF-8, may containing UNIX * slashes on non-UNIX systems. */ void VBOXCALL supdrvOSLdrNotifyOpened(PSUPDRVDEVEXT pDevExt, PSUPDRVLDRIMAGE pImage, const char *pszFilename); /** * Validates an entry point address. * * Called before supdrvOSLdrLoad. * * @returns IPRT status code. * @param pDevExt The device globals. * @param pImage The image data (still in the open state). * @param pv The address within the image. * @param pbImageBits The image bits as loaded by ring-3. * @param pszSymbol The name of the entrypoint being checked. */ int VBOXCALL supdrvOSLdrValidatePointer(PSUPDRVDEVEXT pDevExt, PSUPDRVLDRIMAGE pImage, void *pv, const uint8_t *pbImageBits, const char *pszSymbol); /** * Load the image. * * @returns IPRT status code. * @param pDevExt The device globals. * @param pImage The image data (up to date). Adjust entrypoints * and exports if necessary. * @param pbImageBits The image bits as loaded by ring-3. * @param pReq Pointer to the request packet so that the VMMR0 * entry points can be adjusted. */ int VBOXCALL supdrvOSLdrLoad(PSUPDRVDEVEXT pDevExt, PSUPDRVLDRIMAGE pImage, const uint8_t *pbImageBits, PSUPLDRLOAD pReq); /** * Unload the image (only called if supdrvOSLdrOpen returned success). * * @param pDevExt The device globals. * @param pImage The image data (mostly still valid). */ void VBOXCALL supdrvOSLdrUnload(PSUPDRVDEVEXT pDevExt, PSUPDRVLDRIMAGE pImage); /** * Notification call indicating that a image is being unloaded. * * Called for both native and non-native images. In the former case, it's * called after supdrvOSLdrUnload. * * @param pDevExt The device globals. * @param pImage The image handle. */ void VBOXCALL supdrvOSLdrNotifyUnloaded(PSUPDRVDEVEXT pDevExt, PSUPDRVLDRIMAGE pImage); /** * Queries a symbol address is a native module. * * @returns IPRT status code. * @param pDevExt The device globals. * @param pImage The image to search. * @param pszSymbol The symbol to search for. * @param cchSymbol The length of the symbol. * @param ppvSymbol Where to return the symbol address if found. */ int VBOXCALL supdrvOSLdrQuerySymbol(PSUPDRVDEVEXT pDevExt, PSUPDRVLDRIMAGE pImage, const char *pszSymbol, size_t cchSymbol, void **ppvSymbol); /** * Retains a native wrapper module when it is first being used. * * This will be call when pImage->cImgUsage is incremented to 2. * * @param pDevExt The device globals. * @param pImage The wrapped image. */ void VBOXCALL supdrvOSLdrRetainWrapperModule(PSUPDRVDEVEXT pDevExt, PSUPDRVLDRIMAGE pImage); /** * Release a native wrapper module when it is no longer being used. * * This will be call when pImage->cImgUsage is decremented to 1. * * @param pDevExt The device globals. * @param pImage The wrapped image. */ void VBOXCALL supdrvOSLdrReleaseWrapperModule(PSUPDRVDEVEXT pDevExt, PSUPDRVLDRIMAGE pImage); #ifdef SUPDRV_WITH_MSR_PROBER /** * Tries to read an MSR. * * @returns One of the listed VBox status codes. * @retval VINF_SUCCESS if read successfully, value in *puValue. * @retval VERR_ACCESS_DENIED if we couldn't read it (GP). * @retval VERR_NOT_SUPPORTED if not supported. * * @param uMsr The MSR to read from. * @param idCpu The CPU to read the MSR on. NIL_RTCPUID * indicates any suitable CPU. * @param puValue Where to return the value. */ int VBOXCALL supdrvOSMsrProberRead(uint32_t uMsr, RTCPUID idCpu, uint64_t *puValue); /** * Tries to write an MSR. * * @returns One of the listed VBox status codes. * @retval VINF_SUCCESS if written successfully. * @retval VERR_ACCESS_DENIED if we couldn't write the value to it (GP). * @retval VERR_NOT_SUPPORTED if not supported. * * @param uMsr The MSR to write to. * @param idCpu The CPU to write the MSR on. NIL_RTCPUID * indicates any suitable CPU. * @param uValue The value to write. */ int VBOXCALL supdrvOSMsrProberWrite(uint32_t uMsr, RTCPUID idCpu, uint64_t uValue); /** * Tries to modify an MSR value. * * @returns One of the listed VBox status codes. * @retval VINF_SUCCESS if succeeded. * @retval VERR_NOT_SUPPORTED if not supported. * * @param idCpu The CPU to modify the MSR on. NIL_RTCPUID * indicates any suitable CPU. * @param pReq The request packet with input arguments and * where to store the results. */ int VBOXCALL supdrvOSMsrProberModify(RTCPUID idCpu, PSUPMSRPROBER pReq); #endif /* SUPDRV_WITH_MSR_PROBER */ #if defined(RT_OS_DARWIN) int VBOXCALL supdrvDarwinResumeSuspendedKbds(void); #endif /********************************************************************************************************************************* * Shared Functions * *********************************************************************************************************************************/ /* SUPDrv.c */ int VBOXCALL supdrvIOCtl(uintptr_t uIOCtl, PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession, PSUPREQHDR pReqHdr, size_t cbReq); int VBOXCALL supdrvIOCtlFast(uintptr_t uOperation, VMCPUID idCpu, PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession); int VBOXCALL supdrvIDC(uintptr_t uIOCtl, PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession, PSUPDRVIDCREQHDR pReqHdr); int VBOXCALL supdrvInitDevExt(PSUPDRVDEVEXT pDevExt, size_t cbSession); void VBOXCALL supdrvDeleteDevExt(PSUPDRVDEVEXT pDevExt); int VBOXCALL supdrvCreateSession(PSUPDRVDEVEXT pDevExt, bool fUser, bool fUnrestricted, PSUPDRVSESSION *ppSession); int VBOXCALL supdrvSessionHashTabInsert(PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession, PSUPDRVSESSION *ppOsSessionPtr, void *pvUser); int VBOXCALL supdrvSessionHashTabRemove(PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession, void *pvUser); PSUPDRVSESSION VBOXCALL supdrvSessionHashTabLookup(PSUPDRVDEVEXT pDevExt, RTPROCESS Process, RTR0PROCESS R0Process, PSUPDRVSESSION *ppOsSessionPtr); uint32_t VBOXCALL supdrvSessionRetain(PSUPDRVSESSION pSession); uint32_t VBOXCALL supdrvSessionRelease(PSUPDRVSESSION pSession); void VBOXCALL supdrvBadContext(PSUPDRVDEVEXT pDevExt, const char *pszFile, uint32_t uLine, const char *pszExtra); int VBOXCALL supdrvQueryVTCapsInternal(uint32_t *pfCaps); int VBOXCALL supdrvLdrLoadError(int rc, PSUPLDRLOAD pReq, const char *pszFormat, ...); int VBOXCALL supdrvLdrGetExportedSymbol(const char *pszSymbol, uintptr_t *puValue); int VBOXCALL supdrvLdrRegisterWrappedModule(PSUPDRVDEVEXT pDevExt, PCSUPLDRWRAPPEDMODULE pWrappedModInfo, void *pvNative, void **phMod); int VBOXCALL supdrvLdrDeregisterWrappedModule(PSUPDRVDEVEXT pDevExt, PCSUPLDRWRAPPEDMODULE pWrappedModInfo, void **phMod); /* SUPDrvGip.cpp */ int VBOXCALL supdrvGipCreate(PSUPDRVDEVEXT pDevExt); void VBOXCALL supdrvGipDestroy(PSUPDRVDEVEXT pDevExt); int VBOXCALL supdrvIOCtl_TscDeltaMeasure(PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession, PSUPTSCDELTAMEASURE pReq); int VBOXCALL supdrvIOCtl_TscRead(PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession, PSUPTSCREAD pReq); int VBOXCALL supdrvIOCtl_GipSetFlags(PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession, uint32_t fOrMask, uint32_t fAndMask); /* SUPDrvTracer.cpp */ int VBOXCALL supdrvTracerInit(PSUPDRVDEVEXT pDevExt); void VBOXCALL supdrvTracerTerm(PSUPDRVDEVEXT pDevExt); void VBOXCALL supdrvTracerModuleUnloading(PSUPDRVDEVEXT pDevExt, PSUPDRVLDRIMAGE pImage); void VBOXCALL supdrvTracerCleanupSession(PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession); int VBOXCALL supdrvIOCtl_TracerUmodRegister(PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession, RTR3PTR R3PtrVtgHdr, RTUINTPTR uVtgHdrAddr, RTR3PTR R3PtrStrTab, uint32_t cbStrTab, const char *pszModName, uint32_t fFlags); int VBOXCALL supdrvIOCtl_TracerUmodDeregister(PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession, RTR3PTR R3PtrVtgHdr); void VBOXCALL supdrvIOCtl_TracerUmodProbeFire(PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession, PSUPDRVTRACERUSRCTX pCtx); int VBOXCALL supdrvIOCtl_TracerOpen(PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession, uint32_t uCookie, uintptr_t uArg); int VBOXCALL supdrvIOCtl_TracerClose(PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession); int VBOXCALL supdrvIOCtl_TracerIOCtl(PSUPDRVDEVEXT pDevExt, PSUPDRVSESSION pSession, uintptr_t uCmd, uintptr_t uArg, int32_t *piRetVal); extern PFNRT g_pfnSupdrvProbeFireKernel; DECLASM(void) supdrvTracerProbeFireStub(void); #ifdef VBOX_WITH_NATIVE_DTRACE const SUPDRVTRACERREG * VBOXCALL supdrvDTraceInit(void); void VBOXCALL supdrvDTraceFini(void); #endif RT_C_DECLS_END #endif /* !VBOX_INCLUDED_SRC_Support_SUPDrvInternal_h */