/* $Id: DBGFInternal.h 64770 2016-12-01 12:28:44Z vboxsync $ */ /** @file * DBGF - 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 ___DBGFInternal_h #define ___DBGFInternal_h #include #ifdef IN_RING3 # include #endif #include #include #include #include #include #include #include /** @defgroup grp_dbgf_int Internals * @ingroup grp_dbgf * @internal * @{ */ /** VMM Debugger Command. */ typedef enum DBGFCMD { /** No command. * This is assigned to the field by the emulation thread after * a command has been completed. */ DBGFCMD_NO_COMMAND = 0, /** Halt the VM. */ DBGFCMD_HALT, /** Resume execution. */ DBGFCMD_GO, /** Single step execution - stepping into calls. */ DBGFCMD_SINGLE_STEP, /** Detaches the debugger. * Disabling all breakpoints, watch points and the like. */ DBGFCMD_DETACH_DEBUGGER, /** Detached the debugger. * The isn't a command as such, it's just that it's necessary for the * detaching protocol to be racefree. */ DBGFCMD_DETACHED_DEBUGGER } DBGFCMD; /** * VMM Debugger Command. */ typedef union DBGFCMDDATA { uint32_t uDummy; } DBGFCMDDATA; /** Pointer to DBGF Command Data. */ typedef DBGFCMDDATA *PDBGFCMDDATA; /** * Info type. */ typedef enum DBGFINFOTYPE { /** Invalid. */ DBGFINFOTYPE_INVALID = 0, /** Device owner. */ DBGFINFOTYPE_DEV, /** Driver owner. */ DBGFINFOTYPE_DRV, /** Internal owner. */ DBGFINFOTYPE_INT, /** External owner. */ DBGFINFOTYPE_EXT } DBGFINFOTYPE; /** Pointer to info structure. */ typedef struct DBGFINFO *PDBGFINFO; #ifdef IN_RING3 /** * Info structure. */ typedef struct DBGFINFO { /** The flags. */ uint32_t fFlags; /** Owner type. */ DBGFINFOTYPE enmType; /** Per type data. */ union { /** DBGFINFOTYPE_DEV */ struct { /** Device info handler function. */ PFNDBGFHANDLERDEV pfnHandler; /** The device instance. */ PPDMDEVINS pDevIns; } Dev; /** DBGFINFOTYPE_DRV */ struct { /** Driver info handler function. */ PFNDBGFHANDLERDRV pfnHandler; /** The driver instance. */ PPDMDRVINS pDrvIns; } Drv; /** DBGFINFOTYPE_INT */ struct { /** Internal info handler function. */ PFNDBGFHANDLERINT pfnHandler; } Int; /** DBGFINFOTYPE_EXT */ struct { /** External info handler function. */ PFNDBGFHANDLEREXT pfnHandler; /** The user argument. */ void *pvUser; } Ext; } u; /** Pointer to the description. */ const char *pszDesc; /** Pointer to the next info structure. */ PDBGFINFO pNext; /** The identifier name length. */ size_t cchName; /** The identifier name. (Extends 'beyond' the struct as usual.) */ char szName[1]; } DBGFINFO; #endif /* IN_RING3 */ /** * Guest OS digger instance. */ typedef struct DBGFOS { /** Pointer to the registration record. */ PCDBGFOSREG pReg; /** Pointer to the next OS we've registered. */ struct DBGFOS *pNext; /** List of EMT interface wrappers. */ struct DBGFOSEMTWRAPPER *pWrapperHead; /** The instance data (variable size). */ uint8_t abData[16]; } DBGFOS; /** Pointer to guest OS digger instance. */ typedef DBGFOS *PDBGFOS; /** Pointer to const guest OS digger instance. */ typedef DBGFOS const *PCDBGFOS; /** * Breakpoint search optimization. */ typedef struct DBGFBPSEARCHOPT { /** Where to start searching for hits. * (First enabled is #DBGF::aBreakpoints[iStartSearch]). */ uint32_t volatile iStartSearch; /** The number of aBreakpoints entries to search. * (Last enabled is #DBGF::aBreakpoints[iStartSearch + cToSearch - 1]) */ uint32_t volatile cToSearch; } DBGFBPSEARCHOPT; /** Pointer to a breakpoint search optimziation structure. */ typedef DBGFBPSEARCHOPT *PDBGFBPSEARCHOPT; /** * DBGF Data (part of VM) */ typedef struct DBGF { /** Bitmap of enabled hardware interrupt breakpoints. */ uint32_t bmHardIntBreakpoints[256 / 32]; /** Bitmap of enabled software interrupt breakpoints. */ uint32_t bmSoftIntBreakpoints[256 / 32]; /** Bitmap of selected events. * This includes non-selectable events too for simplicity, we maintain the * state for some of these, as it may come in handy. */ uint64_t bmSelectedEvents[(DBGFEVENT_END + 63) / 64]; /** Enabled hardware interrupt breakpoints. */ uint32_t cHardIntBreakpoints; /** Enabled software interrupt breakpoints. */ uint32_t cSoftIntBreakpoints; /** The number of selected events. */ uint32_t cSelectedEvents; /** The number of enabled hardware breakpoints. */ uint8_t cEnabledHwBreakpoints; /** The number of enabled hardware I/O breakpoints. */ uint8_t cEnabledHwIoBreakpoints; /** The number of enabled INT3 breakpoints. */ uint8_t cEnabledInt3Breakpoints; uint8_t abPadding; /**< Unused padding space up for grabs. */ uint32_t uPadding; /** Debugger Attached flag. * Set if a debugger is attached, elsewise it's clear. */ bool volatile fAttached; /** Stopped in the Hypervisor. * Set if we're stopped on a trace, breakpoint or assertion inside * the hypervisor and have to restrict the available operations. */ bool volatile fStoppedInHyper; /** * Ping-Pong construct where the Ping side is the VMM and the Pong side * the Debugger. */ RTPINGPONG PingPong; RTHCUINTPTR uPtrPadding; /**< Alignment padding. */ /** The Event to the debugger. * The VMM will ping the debugger when the event is ready. The event is * either a response to a command or to a break/watch point issued * previously. */ DBGFEVENT DbgEvent; /** The Command to the VMM. * Operated in an atomic fashion since the VMM will poll on this. * This means that a the command data must be written before this member * is set. The VMM will reset this member to the no-command state * when it have processed it. */ DBGFCMD volatile enmVMMCmd; /** The Command data. * Not all commands take data. */ DBGFCMDDATA VMMCmdData; /** Stepping filtering. */ struct { /** The CPU doing the stepping. * Set to NIL_VMCPUID when filtering is inactive */ VMCPUID idCpu; /** The specified flags. */ uint32_t fFlags; /** The effective PC address to stop at, if given. */ RTGCPTR AddrPc; /** The lowest effective stack address to stop at. * Together with cbStackPop, this forms a range of effective stack pointer * addresses that we stop for. */ RTGCPTR AddrStackPop; /** The size of the stack stop area starting at AddrStackPop. */ RTGCPTR cbStackPop; /** Maximum number of steps. */ uint32_t cMaxSteps; /** Number of steps made thus far. */ uint32_t cSteps; /** Current call counting balance for step-over handling. */ uint32_t uCallDepth; uint32_t u32Padding; /**< Alignment padding. */ } SteppingFilter; uint32_t u32Padding[2]; /**< Alignment padding. */ /** Array of hardware breakpoints. (0..3) * This is shared among all the CPUs because life is much simpler that way. */ DBGFBP aHwBreakpoints[4]; /** Array of int 3 and REM breakpoints. (4..) * @remark This is currently a fixed size array for reasons of simplicity. */ DBGFBP aBreakpoints[32]; /** MMIO breakpoint search optimizations. */ DBGFBPSEARCHOPT Mmio; /** I/O port breakpoint search optimizations. */ DBGFBPSEARCHOPT PortIo; /** INT3 breakpoint search optimizations. */ DBGFBPSEARCHOPT Int3; } DBGF; AssertCompileMemberAlignment(DBGF, DbgEvent, 8); AssertCompileMemberAlignment(DBGF, aHwBreakpoints, 8); AssertCompileMemberAlignment(DBGF, bmHardIntBreakpoints, 8); /** Pointer to DBGF Data. */ typedef DBGF *PDBGF; /** * Event state (for DBGFCPU::aEvents). */ typedef enum DBGFEVENTSTATE { /** Invalid event stack entry. */ DBGFEVENTSTATE_INVALID = 0, /** The current event stack entry. */ DBGFEVENTSTATE_CURRENT, /** Event that should be ignored but hasn't yet actually been ignored. */ DBGFEVENTSTATE_IGNORE, /** Event that has been ignored but may be restored to IGNORE should another * debug event fire before the instruction is completed. */ DBGFEVENTSTATE_RESTORABLE, /** End of valid events. */ DBGFEVENTSTATE_END, /** Make sure we've got a 32-bit type. */ DBGFEVENTSTATE_32BIT_HACK = 0x7fffffff } DBGFEVENTSTATE; /** Converts a DBGFCPU pointer into a VM pointer. */ #define DBGFCPU_2_VM(pDbgfCpu) ((PVM)((uint8_t *)(pDbgfCpu) + (pDbgfCpu)->offVM)) /** * The per CPU data for DBGF. */ typedef struct DBGFCPU { /** The offset into the VM structure. * @see DBGFCPU_2_VM(). */ uint32_t offVM; /** Current active breakpoint (id). * This is ~0U if not active. It is set when a execution engine * encounters a breakpoint and returns VINF_EM_DBG_BREAKPOINT. This is * currently not used for REM breakpoints because of the lazy coupling * between VBox and REM. * * @todo drop this in favor of aEvents! */ uint32_t iActiveBp; /** Set if we're singlestepping in raw mode. * This is checked and cleared in the \#DB handler. */ bool fSingleSteppingRaw; /** Alignment padding. */ bool afPadding[3]; /** The number of events on the stack (aEvents). * The pending event is the last one (aEvents[cEvents - 1]), but only when * enmState is DBGFEVENTSTATE_CURRENT. */ uint32_t cEvents; /** Events - current, ignoring and ignored. * * We maintain a stack of events in order to try avoid ending up in an infinit * loop when resuming after an event fired. There are cases where we may end * generating additional events before the instruction can be executed * successfully. Like for instance an XCHG on MMIO with separate read and write * breakpoints, or a MOVSB instruction working on breakpointed MMIO as both * source and destination. * * So, when resuming after dropping into the debugger for an event, we convert * the DBGFEVENTSTATE_CURRENT event into a DBGFEVENTSTATE_IGNORE event, leaving * cEvents unchanged. If the event is reported again, we will ignore it and * tell the reporter to continue executing. The event change to the * DBGFEVENTSTATE_RESTORABLE state. * * Currently, the event reporter has to figure out that it is a nested event and * tell DBGF to restore DBGFEVENTSTATE_RESTORABLE events (and keep * DBGFEVENTSTATE_IGNORE, should they happen out of order for some weird * reason). */ struct { /** The event details. */ DBGFEVENT Event; /** The RIP at which this happend (for validating ignoring). */ uint64_t rip; /** The event state. */ DBGFEVENTSTATE enmState; /** Alignment padding. */ uint32_t u32Alignment; } aEvents[3]; } DBGFCPU; AssertCompileMemberAlignment(DBGFCPU, aEvents, 8); AssertCompileMemberSizeAlignment(DBGFCPU, aEvents[0], 8); /** Pointer to DBGFCPU data. */ typedef DBGFCPU *PDBGFCPU; struct DBGFOSEMTWRAPPER; /** * The DBGF data kept in the UVM. */ typedef struct DBGFUSERPERVM { /** The address space database lock. */ RTSEMRW hAsDbLock; /** The address space handle database. (Protected by hAsDbLock.) */ R3PTRTYPE(AVLPVTREE) AsHandleTree; /** The address space process id database. (Protected by hAsDbLock.) */ R3PTRTYPE(AVLU32TREE) AsPidTree; /** The address space name database. (Protected by hAsDbLock.) */ R3PTRTYPE(RTSTRSPACE) AsNameSpace; /** Special address space aliases. (Protected by hAsDbLock.) */ RTDBGAS volatile ahAsAliases[DBGF_AS_COUNT]; /** For lazily populating the aliased address spaces. */ bool volatile afAsAliasPopuplated[DBGF_AS_COUNT]; /** Alignment padding. */ bool afAlignment1[2]; /** Debug configuration. */ R3PTRTYPE(RTDBGCFG) hDbgCfg; /** The register database lock. */ RTSEMRW hRegDbLock; /** String space for looking up registers. (Protected by hRegDbLock.) */ R3PTRTYPE(RTSTRSPACE) RegSpace; /** String space holding the register sets. (Protected by hRegDbLock.) */ R3PTRTYPE(RTSTRSPACE) RegSetSpace; /** The number of registers (aliases, sub-fields and the special CPU * register aliases (eg AH) are not counted). */ uint32_t cRegs; /** For early initialization by . */ bool volatile fRegDbInitialized; /** Alignment padding. */ bool afAlignment2[3]; /** Critical section protecting the Guest OS Digger data, the info handlers * and the plugins. These share to give the best possible plugin unload * race protection. */ RTCRITSECTRW CritSect; /** Head of the LIFO of loaded DBGF plugins. */ R3PTRTYPE(struct DBGFPLUGIN *) pPlugInHead; /** The current Guest OS digger. */ R3PTRTYPE(PDBGFOS) pCurOS; /** The head of the Guest OS digger instances. */ R3PTRTYPE(PDBGFOS) pOSHead; /** List of registered info handlers. */ R3PTRTYPE(PDBGFINFO) pInfoFirst; /** The type database lock. */ RTSEMRW hTypeDbLock; /** String space for looking up types. (Protected by hTypeDbLock.) */ R3PTRTYPE(RTSTRSPACE) TypeSpace; /** For early initialization by . */ bool volatile fTypeDbInitialized; /** Alignment padding. */ bool afAlignment3[3]; } DBGFUSERPERVM; typedef DBGFUSERPERVM *PDBGFUSERPERVM; typedef DBGFUSERPERVM const *PCDBGFUSERPERVM; /** * The per-CPU DBGF data kept in the UVM. */ typedef struct DBGFUSERPERVMCPU { /** The guest register set for this CPU. Can be NULL. */ R3PTRTYPE(struct DBGFREGSET *) pGuestRegSet; /** The hypervisor register set for this CPU. Can be NULL. */ R3PTRTYPE(struct DBGFREGSET *) pHyperRegSet; } DBGFUSERPERVMCPU; int dbgfR3AsInit(PUVM pUVM); void dbgfR3AsTerm(PUVM pUVM); void dbgfR3AsRelocate(PUVM pUVM, RTGCUINTPTR offDelta); int dbgfR3BpInit(PVM pVM); int dbgfR3InfoInit(PUVM pUVM); int dbgfR3InfoTerm(PUVM pUVM); int dbgfR3OSInit(PUVM pUVM); void dbgfR3OSTerm(PUVM pUVM); int dbgfR3RegInit(PUVM pUVM); void dbgfR3RegTerm(PUVM pUVM); int dbgfR3TraceInit(PVM pVM); void dbgfR3TraceRelocate(PVM pVM); void dbgfR3TraceTerm(PVM pVM); DECLHIDDEN(int) dbgfR3TypeInit(PUVM pUVM); DECLHIDDEN(void) dbgfR3TypeTerm(PUVM pUVM); int dbgfR3PlugInInit(PUVM pUVM); void dbgfR3PlugInTerm(PUVM pUVM); #ifdef IN_RING3 /** * DBGF disassembler state (substate of DISSTATE). */ typedef struct DBGFDISSTATE { /** Pointer to the current instruction. */ PCDISOPCODE pCurInstr; /** Size of the instruction in bytes. */ uint32_t cbInstr; /** Parameters. */ DISOPPARAM Param1; DISOPPARAM Param2; DISOPPARAM Param3; DISOPPARAM Param4; } DBGFDISSTATE; /** Pointer to a DBGF disassembler state. */ typedef DBGFDISSTATE *PDBGFDISSTATE; DECLHIDDEN(int) dbgfR3DisasInstrStateEx(PUVM pUVM, VMCPUID idCpu, PDBGFADDRESS pAddr, uint32_t fFlags, char *pszOutput, uint32_t cbOutput, PDBGFDISSTATE pDisState); #endif /** @} */ #endif