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|
/* $Id: HGCM.cpp $ */
/** @file
* HGCM (Host-Guest Communication Manager)
*/
/*
* Copyright (C) 2006-2022 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 <https://www.gnu.org/licenses>.
*
* SPDX-License-Identifier: GPL-3.0-only
*/
#define LOG_GROUP LOG_GROUP_HGCM
#include "LoggingNew.h"
#include "HGCM.h"
#include "HGCMThread.h"
#include <VBox/err.h>
#include <VBox/hgcmsvc.h>
#include <VBox/vmm/ssm.h>
#include <VBox/vmm/stam.h>
#include <VBox/vmm/vmmr3vtable.h>
#include <VBox/sup.h>
#include <VBox/AssertGuest.h>
#include <iprt/alloc.h>
#include <iprt/avl.h>
#include <iprt/critsect.h>
#include <iprt/asm.h>
#include <iprt/ldr.h>
#include <iprt/param.h>
#include <iprt/path.h>
#include <iprt/string.h>
#include <iprt/semaphore.h>
#include <iprt/thread.h>
#include <VBox/VMMDev.h>
#include <new>
/**
* A service gets one thread, which synchronously delivers messages to
* the service. This is good for serialization.
*
* Some services may want to process messages asynchronously, and will want
* a next message to be delivered, while a previous message is still being
* processed.
*
* The dedicated service thread delivers a next message when service
* returns after fetching a previous one. The service will call a message
* completion callback when message is actually processed. So returning
* from the service call means only that the service is processing message.
*
* 'Message processed' condition is indicated by service, which call the
* callback, even if the callback is called synchronously in the dedicated
* thread.
*
* This message completion callback is only valid for Call requests.
* Connect and Disconnect are processed synchronously by the service.
*/
/* The maximum allowed size of a service name in bytes. */
#define VBOX_HGCM_SVC_NAME_MAX_BYTES 1024
struct _HGCMSVCEXTHANDLEDATA
{
char *pszServiceName;
/* The service name follows. */
};
class HGCMClient;
/** Internal helper service object. HGCM code would use it to
* hold information about services and communicate with services.
* The HGCMService is an (in future) abstract class that implements
* common functionality. There will be derived classes for specific
* service types.
*/
class HGCMService
{
private:
VBOXHGCMSVCHELPERS m_svcHelpers;
static HGCMService *sm_pSvcListHead;
static HGCMService *sm_pSvcListTail;
static int sm_cServices;
HGCMThread *m_pThread;
friend DECLCALLBACK(void) hgcmServiceThread(HGCMThread *pThread, void *pvUser);
uint32_t volatile m_u32RefCnt;
HGCMService *m_pSvcNext;
HGCMService *m_pSvcPrev;
char *m_pszSvcName;
char *m_pszSvcLibrary;
RTLDRMOD m_hLdrMod;
PFNVBOXHGCMSVCLOAD m_pfnLoad;
VBOXHGCMSVCFNTABLE m_fntable;
/** Set if servicing SVC_MSG_CONNECT or SVC_MSG_DISCONNECT.
* Used for context checking pfnDisconnectClient calls, as it can only
* safely be made when the main HGCM thread is waiting on the service to
* process those messages. */
bool m_fInConnectOrDisconnect;
uint32_t m_acClients[HGCM_CLIENT_CATEGORY_MAX]; /**< Clients per category. */
uint32_t m_cClients;
uint32_t m_cClientsAllocated;
uint32_t *m_paClientIds;
HGCMSVCEXTHANDLE m_hExtension;
PUVM m_pUVM;
PCVMMR3VTABLE m_pVMM;
PPDMIHGCMPORT m_pHgcmPort;
/** @name Statistics
* @{ */
STAMPROFILE m_StatHandleMsg;
STAMCOUNTER m_StatTooManyClients;
STAMCOUNTER m_StatTooManyCalls;
/** @} */
int loadServiceDLL(void);
void unloadServiceDLL(void);
/*
* Main HGCM thread methods.
*/
int instanceCreate(const char *pszServiceLibrary, const char *pszServiceName,
PUVM pUVM, PCVMMR3VTABLE pVMM, PPDMIHGCMPORT pHgcmPort);
void registerStatistics(const char *pszServiceName, PUVM pUVM, PCVMMR3VTABLE pVMM);
void instanceDestroy(void);
int saveClientState(uint32_t u32ClientId, PSSMHANDLE pSSM, PCVMMR3VTABLE pVMM);
int loadClientState(uint32_t u32ClientId, PSSMHANDLE pSSM, PCVMMR3VTABLE pVMM, uint32_t uVersion);
HGCMService();
~HGCMService() {};
static DECLCALLBACK(int) svcHlpCallComplete(VBOXHGCMCALLHANDLE callHandle, int32_t rc);
static DECLCALLBACK(int) svcHlpDisconnectClient(void *pvInstance, uint32_t idClient);
static DECLCALLBACK(bool) svcHlpIsCallRestored(VBOXHGCMCALLHANDLE callHandle);
static DECLCALLBACK(bool) svcHlpIsCallCancelled(VBOXHGCMCALLHANDLE callHandle);
static DECLCALLBACK(int) svcHlpStamRegisterV(void *pvInstance, void *pvSample, STAMTYPE enmType,
STAMVISIBILITY enmVisibility, STAMUNIT enmUnit, const char *pszDesc,
const char *pszName, va_list va);
static DECLCALLBACK(int) svcHlpStamDeregisterV(void *pvInstance, const char *pszPatFmt, va_list va);
static DECLCALLBACK(int) svcHlpInfoRegister(void *pvInstance, const char *pszName, const char *pszDesc,
PFNDBGFHANDLEREXT pfnHandler, void *pvUser);
static DECLCALLBACK(int) svcHlpInfoDeregister(void *pvInstance, const char *pszName);
static DECLCALLBACK(uint32_t) svcHlpGetRequestor(VBOXHGCMCALLHANDLE hCall);
static DECLCALLBACK(uint64_t) svcHlpGetVMMDevSessionId(void *pvInstance);
public:
/*
* Main HGCM thread methods.
*/
static int LoadService(const char *pszServiceLibrary, const char *pszServiceName,
PUVM pUVM, PCVMMR3VTABLE pVMM, PPDMIHGCMPORT pHgcmPort);
void UnloadService(bool fUvmIsInvalid);
static void UnloadAll(bool fUvmIsInvalid);
static int ResolveService(HGCMService **ppsvc, const char *pszServiceName);
void ReferenceService(void);
void ReleaseService(void);
static void Reset(void);
static int SaveState(PSSMHANDLE pSSM, PCVMMR3VTABLE pVMM);
static int LoadState(PSSMHANDLE pSSM, PCVMMR3VTABLE pVMM, uint32_t uVersion);
int CreateAndConnectClient(uint32_t *pu32ClientIdOut, uint32_t u32ClientIdIn, uint32_t fRequestor, bool fRestoring);
int DisconnectClient(uint32_t u32ClientId, bool fFromService, HGCMClient *pClient);
int HostCall(uint32_t u32Function, uint32_t cParms, VBOXHGCMSVCPARM *paParms);
static void BroadcastNotify(HGCMNOTIFYEVENT enmEvent);
void Notify(HGCMNOTIFYEVENT enmEvent);
uint32_t SizeOfClient(void) { return m_fntable.cbClient; };
int RegisterExtension(HGCMSVCEXTHANDLE handle, PFNHGCMSVCEXT pfnExtension, void *pvExtension);
void UnregisterExtension(HGCMSVCEXTHANDLE handle);
/*
* The service thread methods.
*/
int GuestCall(PPDMIHGCMPORT pHGCMPort, PVBOXHGCMCMD pCmd, uint32_t u32ClientId, HGCMClient *pClient,
uint32_t u32Function, uint32_t cParms, VBOXHGCMSVCPARM aParms[], uint64_t tsArrival);
void GuestCancelled(PPDMIHGCMPORT pHGCMPort, PVBOXHGCMCMD pCmd, uint32_t idClient);
};
class HGCMClient: public HGCMObject
{
public:
HGCMClient(uint32_t a_fRequestor, uint32_t a_idxCategory)
: HGCMObject(HGCMOBJ_CLIENT)
, pService(NULL)
, pvData(NULL)
, fRequestor(a_fRequestor)
, idxCategory(a_idxCategory)
, cPendingCalls(0)
, m_fGuestAccessible(false)
{
Assert(idxCategory < HGCM_CLIENT_CATEGORY_MAX);
}
~HGCMClient();
int Init(HGCMService *pSvc);
/** Lookups a client object by its handle. */
static HGCMClient *ReferenceByHandle(uint32_t idClient)
{
return (HGCMClient *)hgcmObjReference(idClient, HGCMOBJ_CLIENT);
}
/** Lookups a client object by its handle and makes sure that it's accessible to the guest. */
static HGCMClient *ReferenceByHandleForGuest(uint32_t idClient)
{
HGCMClient *pClient = (HGCMClient *)hgcmObjReference(idClient, HGCMOBJ_CLIENT);
if (pClient)
{
if (RT_LIKELY(pClient->m_fGuestAccessible))
return pClient;
pClient->Dereference();
}
return NULL;
}
/** Make the client object accessible to the guest. */
void makeAccessibleToGuest()
{
ASMAtomicWriteBool(&m_fGuestAccessible, true);
}
/** Service that the client is connected to. */
HGCMService *pService;
/** Client specific data. */
void *pvData;
/** The requestor flags this client was created with.
* @sa VMMDevRequestHeader::fRequestor */
uint32_t fRequestor;
/** The client category (HGCM_CLIENT_CATEGORY_XXX). */
uint32_t idxCategory;
/** Number of pending calls. */
uint32_t volatile cPendingCalls;
protected:
/** Set if the client is accessible to the guest, clear if not. */
bool volatile m_fGuestAccessible;
private: /* none of this: */
HGCMClient();
HGCMClient(HGCMClient const &);
HGCMClient &operator=(HGCMClient const &);
};
HGCMClient::~HGCMClient()
{
if (pService->SizeOfClient() > 0)
{
RTMemFree(pvData);
pvData = NULL;
}
}
int HGCMClient::Init(HGCMService *pSvc)
{
pService = pSvc;
if (pService->SizeOfClient() > 0)
{
pvData = RTMemAllocZ(pService->SizeOfClient());
if (!pvData)
{
return VERR_NO_MEMORY;
}
}
return VINF_SUCCESS;
}
#define HGCM_CLIENT_DATA(pService, pClient)(pClient->pvData)
HGCMService *HGCMService::sm_pSvcListHead = NULL;
HGCMService *HGCMService::sm_pSvcListTail = NULL;
int HGCMService::sm_cServices = 0;
HGCMService::HGCMService()
:
m_pThread (NULL),
m_u32RefCnt (0),
m_pSvcNext (NULL),
m_pSvcPrev (NULL),
m_pszSvcName (NULL),
m_pszSvcLibrary (NULL),
m_hLdrMod (NIL_RTLDRMOD),
m_pfnLoad (NULL),
m_fInConnectOrDisconnect(false),
m_cClients (0),
m_cClientsAllocated (0),
m_paClientIds (NULL),
m_hExtension (NULL),
m_pUVM (NULL),
m_pVMM (NULL),
m_pHgcmPort (NULL)
{
RT_ZERO(m_acClients);
RT_ZERO(m_fntable);
}
static bool g_fResetting = false;
static bool g_fSaveState = false;
/** Helper function to load a local service DLL.
*
* @return VBox code
*/
int HGCMService::loadServiceDLL(void)
{
LogFlowFunc(("m_pszSvcLibrary = %s\n", m_pszSvcLibrary));
if (m_pszSvcLibrary == NULL)
{
return VERR_INVALID_PARAMETER;
}
RTERRINFOSTATIC ErrInfo;
RTErrInfoInitStatic(&ErrInfo);
int vrc;
if (RTPathHasPath(m_pszSvcLibrary))
vrc = SUPR3HardenedLdrLoadPlugIn(m_pszSvcLibrary, &m_hLdrMod, &ErrInfo.Core);
else
vrc = SUPR3HardenedLdrLoadAppPriv(m_pszSvcLibrary, &m_hLdrMod, RTLDRLOAD_FLAGS_LOCAL, &ErrInfo.Core);
if (RT_SUCCESS(vrc))
{
LogFlowFunc(("successfully loaded the library.\n"));
m_pfnLoad = NULL;
vrc = RTLdrGetSymbol(m_hLdrMod, VBOX_HGCM_SVCLOAD_NAME, (void**)&m_pfnLoad);
if (RT_FAILURE(vrc) || !m_pfnLoad)
{
Log(("HGCMService::loadServiceDLL: Error resolving the service entry point %s, vrc = %Rrc, m_pfnLoad = %p\n",
VBOX_HGCM_SVCLOAD_NAME, vrc, m_pfnLoad));
if (RT_SUCCESS(vrc))
{
/* m_pfnLoad was NULL */
vrc = VERR_SYMBOL_NOT_FOUND;
}
}
if (RT_SUCCESS(vrc))
{
RT_ZERO(m_fntable);
m_fntable.cbSize = sizeof(m_fntable);
m_fntable.u32Version = VBOX_HGCM_SVC_VERSION;
m_fntable.pHelpers = &m_svcHelpers;
/* Total max calls: (2048 + 1024 + 1024) * 8192 = 33 554 432 */
m_fntable.idxLegacyClientCategory = HGCM_CLIENT_CATEGORY_KERNEL;
m_fntable.acMaxClients[HGCM_CLIENT_CATEGORY_KERNEL] = _2K;
m_fntable.acMaxClients[HGCM_CLIENT_CATEGORY_ROOT] = _1K;
m_fntable.acMaxClients[HGCM_CLIENT_CATEGORY_USER] = _1K;
m_fntable.acMaxCallsPerClient[HGCM_CLIENT_CATEGORY_KERNEL] = _8K;
m_fntable.acMaxCallsPerClient[HGCM_CLIENT_CATEGORY_ROOT] = _4K;
m_fntable.acMaxCallsPerClient[HGCM_CLIENT_CATEGORY_USER] = _2K;
/** @todo provide way to configure different values via extra data. */
vrc = m_pfnLoad(&m_fntable);
LogFlowFunc(("m_pfnLoad vrc = %Rrc\n", vrc));
if (RT_SUCCESS(vrc))
{
if ( m_fntable.pfnUnload != NULL
&& m_fntable.pfnConnect != NULL
&& m_fntable.pfnDisconnect != NULL
&& m_fntable.pfnCall != NULL
)
{
Assert(m_fntable.idxLegacyClientCategory < RT_ELEMENTS(m_fntable.acMaxClients));
LogRel2(("HGCMService::loadServiceDLL: acMaxClients={%u,%u,%u} acMaxCallsPerClient={%u,%u,%u} => %RU64 calls; idxLegacyClientCategory=%d; %s\n",
m_fntable.acMaxClients[HGCM_CLIENT_CATEGORY_KERNEL],
m_fntable.acMaxClients[HGCM_CLIENT_CATEGORY_ROOT],
m_fntable.acMaxClients[HGCM_CLIENT_CATEGORY_USER],
m_fntable.acMaxCallsPerClient[HGCM_CLIENT_CATEGORY_KERNEL],
m_fntable.acMaxCallsPerClient[HGCM_CLIENT_CATEGORY_ROOT],
m_fntable.acMaxCallsPerClient[HGCM_CLIENT_CATEGORY_USER],
(uint64_t)m_fntable.acMaxClients[HGCM_CLIENT_CATEGORY_KERNEL]
* m_fntable.acMaxCallsPerClient[HGCM_CLIENT_CATEGORY_KERNEL]
+ (uint64_t)m_fntable.acMaxClients[HGCM_CLIENT_CATEGORY_ROOT]
* m_fntable.acMaxCallsPerClient[HGCM_CLIENT_CATEGORY_ROOT]
+ (uint64_t)m_fntable.acMaxClients[HGCM_CLIENT_CATEGORY_USER]
* m_fntable.acMaxCallsPerClient[HGCM_CLIENT_CATEGORY_USER],
m_fntable.idxLegacyClientCategory, m_pszSvcName));
}
else
{
Log(("HGCMService::loadServiceDLL: at least one of function pointers is NULL\n"));
vrc = VERR_INVALID_PARAMETER;
if (m_fntable.pfnUnload)
{
m_fntable.pfnUnload(m_fntable.pvService);
}
}
}
}
}
else
{
LogRel(("HGCM: Failed to load the service library: [%s], vrc = %Rrc - %s. The service will be not available.\n",
m_pszSvcLibrary, vrc, ErrInfo.Core.pszMsg));
m_hLdrMod = NIL_RTLDRMOD;
}
if (RT_FAILURE(vrc))
{
unloadServiceDLL();
}
return vrc;
}
/** Helper function to free a local service DLL.
*
* @return VBox code
*/
void HGCMService::unloadServiceDLL(void)
{
if (m_hLdrMod)
{
RTLdrClose(m_hLdrMod);
}
RT_ZERO(m_fntable);
m_pfnLoad = NULL;
m_hLdrMod = NIL_RTLDRMOD;
}
/*
* Messages processed by service threads. These threads only call the service entry points.
*/
#define SVC_MSG_LOAD (0) /**< Load the service library and call VBOX_HGCM_SVCLOAD_NAME entry point. */
#define SVC_MSG_UNLOAD (1) /**< call pfnUnload and unload the service library. */
#define SVC_MSG_CONNECT (2) /**< pfnConnect */
#define SVC_MSG_DISCONNECT (3) /**< pfnDisconnect */
#define SVC_MSG_GUESTCALL (4) /**< pfnGuestCall */
#define SVC_MSG_HOSTCALL (5) /**< pfnHostCall */
#define SVC_MSG_LOADSTATE (6) /**< pfnLoadState. */
#define SVC_MSG_SAVESTATE (7) /**< pfnSaveState. */
#define SVC_MSG_QUIT (8) /**< Terminate the thread. */
#define SVC_MSG_REGEXT (9) /**< pfnRegisterExtension */
#define SVC_MSG_UNREGEXT (10) /**< pfnRegisterExtension */
#define SVC_MSG_NOTIFY (11) /**< pfnNotify */
#define SVC_MSG_GUESTCANCELLED (12) /**< pfnCancelled */
class HGCMMsgSvcLoad: public HGCMMsgCore
{
public:
HGCMMsgSvcLoad() : HGCMMsgCore(), pUVM() {}
/** The user mode VM handle (for statistics and such). */
PUVM pUVM;
};
class HGCMMsgSvcUnload: public HGCMMsgCore
{
};
class HGCMMsgSvcConnect: public HGCMMsgCore
{
public:
/** client identifier */
uint32_t u32ClientId;
/** Requestor flags. */
uint32_t fRequestor;
/** Set if restoring. */
bool fRestoring;
};
class HGCMMsgSvcDisconnect: public HGCMMsgCore
{
public:
/** client identifier */
uint32_t u32ClientId;
/** The client instance. */
HGCMClient *pClient;
};
class HGCMMsgHeader: public HGCMMsgCore
{
public:
HGCMMsgHeader() : pCmd(NULL), pHGCMPort(NULL) {};
/* Command pointer/identifier. */
PVBOXHGCMCMD pCmd;
/* Port to be informed on message completion. */
PPDMIHGCMPORT pHGCMPort;
};
class HGCMMsgCall: public HGCMMsgHeader
{
public:
HGCMMsgCall() : pcCounter(NULL)
{ }
HGCMMsgCall(HGCMThread *pThread)
: pcCounter(NULL)
{
InitializeCore(SVC_MSG_GUESTCALL, pThread);
Initialize();
}
~HGCMMsgCall()
{
Log(("~HGCMMsgCall %p\n", this));
Assert(!pcCounter);
}
/** Points to HGCMClient::cPendingCalls if it needs to be decremented. */
uint32_t volatile *pcCounter;
/* client identifier */
uint32_t u32ClientId;
/* function number */
uint32_t u32Function;
/* number of parameters */
uint32_t cParms;
VBOXHGCMSVCPARM *paParms;
/** The STAM_GET_TS() value when the request arrived. */
uint64_t tsArrival;
};
class HGCMMsgCancelled: public HGCMMsgHeader
{
public:
HGCMMsgCancelled() {}
HGCMMsgCancelled(HGCMThread *pThread)
{
InitializeCore(SVC_MSG_GUESTCANCELLED, pThread);
Initialize();
}
~HGCMMsgCancelled() { Log(("~HGCMMsgCancelled %p\n", this)); }
/** The client identifier. */
uint32_t idClient;
};
class HGCMMsgLoadSaveStateClient: public HGCMMsgCore
{
public:
PSSMHANDLE pSSM;
PCVMMR3VTABLE pVMM;
uint32_t uVersion;
uint32_t u32ClientId;
};
class HGCMMsgHostCallSvc: public HGCMMsgCore
{
public:
/* function number */
uint32_t u32Function;
/* number of parameters */
uint32_t cParms;
VBOXHGCMSVCPARM *paParms;
};
class HGCMMsgSvcRegisterExtension: public HGCMMsgCore
{
public:
/* Handle of the extension to be registered. */
HGCMSVCEXTHANDLE handle;
/* The extension entry point. */
PFNHGCMSVCEXT pfnExtension;
/* The extension pointer. */
void *pvExtension;
};
class HGCMMsgSvcUnregisterExtension: public HGCMMsgCore
{
public:
/* Handle of the registered extension. */
HGCMSVCEXTHANDLE handle;
};
class HGCMMsgNotify: public HGCMMsgCore
{
public:
/** The event. */
HGCMNOTIFYEVENT enmEvent;
};
static HGCMMsgCore *hgcmMessageAllocSvc(uint32_t u32MsgId)
{
switch (u32MsgId)
{
case SVC_MSG_LOAD: return new HGCMMsgSvcLoad();
case SVC_MSG_UNLOAD: return new HGCMMsgSvcUnload();
case SVC_MSG_CONNECT: return new HGCMMsgSvcConnect();
case SVC_MSG_DISCONNECT: return new HGCMMsgSvcDisconnect();
case SVC_MSG_HOSTCALL: return new HGCMMsgHostCallSvc();
case SVC_MSG_GUESTCALL: return new HGCMMsgCall();
case SVC_MSG_LOADSTATE:
case SVC_MSG_SAVESTATE: return new HGCMMsgLoadSaveStateClient();
case SVC_MSG_REGEXT: return new HGCMMsgSvcRegisterExtension();
case SVC_MSG_UNREGEXT: return new HGCMMsgSvcUnregisterExtension();
case SVC_MSG_NOTIFY: return new HGCMMsgNotify();
case SVC_MSG_GUESTCANCELLED: return new HGCMMsgCancelled();
default:
AssertReleaseMsgFailed(("Msg id = %08X\n", u32MsgId));
}
return NULL;
}
/*
* The service thread. Loads the service library and calls the service entry points.
*/
DECLCALLBACK(void) hgcmServiceThread(HGCMThread *pThread, void *pvUser)
{
HGCMService *pSvc = (HGCMService *)pvUser;
AssertRelease(pSvc != NULL);
bool fQuit = false;
while (!fQuit)
{
HGCMMsgCore *pMsgCore;
int vrc = hgcmMsgGet(pThread, &pMsgCore);
if (RT_FAILURE(vrc))
{
/* The error means some serious unrecoverable problem in the hgcmMsg/hgcmThread layer. */
AssertMsgFailed(("%Rrc\n", vrc));
break;
}
STAM_REL_PROFILE_START(&pSvc->m_StatHandleMsg, a);
/* Cache required information to avoid unnecessary pMsgCore access. */
uint32_t u32MsgId = pMsgCore->MsgId();
switch (u32MsgId)
{
case SVC_MSG_LOAD:
{
LogFlowFunc(("SVC_MSG_LOAD\n"));
vrc = pSvc->loadServiceDLL();
} break;
case SVC_MSG_UNLOAD:
{
LogFlowFunc(("SVC_MSG_UNLOAD\n"));
if (pSvc->m_fntable.pfnUnload)
{
pSvc->m_fntable.pfnUnload(pSvc->m_fntable.pvService);
}
pSvc->unloadServiceDLL();
fQuit = true;
} break;
case SVC_MSG_CONNECT:
{
HGCMMsgSvcConnect *pMsg = (HGCMMsgSvcConnect *)pMsgCore;
LogFlowFunc(("SVC_MSG_CONNECT u32ClientId = %d\n", pMsg->u32ClientId));
HGCMClient *pClient = HGCMClient::ReferenceByHandle(pMsg->u32ClientId);
if (pClient)
{
pSvc->m_fInConnectOrDisconnect = true;
vrc = pSvc->m_fntable.pfnConnect(pSvc->m_fntable.pvService, pMsg->u32ClientId,
HGCM_CLIENT_DATA(pSvc, pClient),
pMsg->fRequestor, pMsg->fRestoring);
pSvc->m_fInConnectOrDisconnect = false;
hgcmObjDereference(pClient);
}
else
{
vrc = VERR_HGCM_INVALID_CLIENT_ID;
}
} break;
case SVC_MSG_DISCONNECT:
{
HGCMMsgSvcDisconnect *pMsg = (HGCMMsgSvcDisconnect *)pMsgCore;
LogFlowFunc(("SVC_MSG_DISCONNECT u32ClientId = %d, pClient = %p\n", pMsg->u32ClientId, pMsg->pClient));
if (pMsg->pClient)
{
pSvc->m_fInConnectOrDisconnect = true;
vrc = pSvc->m_fntable.pfnDisconnect(pSvc->m_fntable.pvService, pMsg->u32ClientId,
HGCM_CLIENT_DATA(pSvc, pMsg->pClient));
pSvc->m_fInConnectOrDisconnect = false;
}
else
{
vrc = VERR_HGCM_INVALID_CLIENT_ID;
}
} break;
case SVC_MSG_GUESTCALL:
{
HGCMMsgCall *pMsg = (HGCMMsgCall *)pMsgCore;
LogFlowFunc(("SVC_MSG_GUESTCALL u32ClientId = %d, u32Function = %d, cParms = %d, paParms = %p\n",
pMsg->u32ClientId, pMsg->u32Function, pMsg->cParms, pMsg->paParms));
HGCMClient *pClient = HGCMClient::ReferenceByHandleForGuest(pMsg->u32ClientId);
if (pClient)
{
pSvc->m_fntable.pfnCall(pSvc->m_fntable.pvService, (VBOXHGCMCALLHANDLE)pMsg, pMsg->u32ClientId,
HGCM_CLIENT_DATA(pSvc, pClient), pMsg->u32Function,
pMsg->cParms, pMsg->paParms, pMsg->tsArrival);
hgcmObjDereference(pClient);
}
else
{
vrc = VERR_HGCM_INVALID_CLIENT_ID;
}
} break;
case SVC_MSG_GUESTCANCELLED:
{
HGCMMsgCancelled *pMsg = (HGCMMsgCancelled *)pMsgCore;
LogFlowFunc(("SVC_MSG_GUESTCANCELLED idClient = %d\n", pMsg->idClient));
HGCMClient *pClient = HGCMClient::ReferenceByHandleForGuest(pMsg->idClient);
if (pClient)
{
pSvc->m_fntable.pfnCancelled(pSvc->m_fntable.pvService, pMsg->idClient, HGCM_CLIENT_DATA(pSvc, pClient));
hgcmObjDereference(pClient);
}
else
{
vrc = VERR_HGCM_INVALID_CLIENT_ID;
}
} break;
case SVC_MSG_HOSTCALL:
{
HGCMMsgHostCallSvc *pMsg = (HGCMMsgHostCallSvc *)pMsgCore;
LogFlowFunc(("SVC_MSG_HOSTCALL u32Function = %d, cParms = %d, paParms = %p\n",
pMsg->u32Function, pMsg->cParms, pMsg->paParms));
vrc = pSvc->m_fntable.pfnHostCall(pSvc->m_fntable.pvService, pMsg->u32Function, pMsg->cParms, pMsg->paParms);
} break;
case SVC_MSG_LOADSTATE:
{
HGCMMsgLoadSaveStateClient *pMsg = (HGCMMsgLoadSaveStateClient *)pMsgCore;
LogFlowFunc(("SVC_MSG_LOADSTATE\n"));
HGCMClient *pClient = HGCMClient::ReferenceByHandle(pMsg->u32ClientId);
if (pClient)
{
/* fRequestor: Restored by the message sender already. */
bool fHaveClientState = pSvc->m_fntable.pfnLoadState != NULL;
if (pMsg->uVersion > HGCM_SAVED_STATE_VERSION_V2)
vrc = pMsg->pVMM->pfnSSMR3GetBool(pMsg->pSSM, &fHaveClientState);
else
vrc = VINF_SUCCESS;
if (RT_SUCCESS(vrc) )
{
if (pSvc->m_fntable.pfnLoadState)
vrc = pSvc->m_fntable.pfnLoadState(pSvc->m_fntable.pvService, pMsg->u32ClientId,
HGCM_CLIENT_DATA(pSvc, pClient), pMsg->pSSM, pMsg->pVMM,
fHaveClientState ? pMsg->uVersion : 0);
else
AssertLogRelStmt(!fHaveClientState, vrc = VERR_INTERNAL_ERROR_5);
}
hgcmObjDereference(pClient);
}
else
{
vrc = VERR_HGCM_INVALID_CLIENT_ID;
}
} break;
case SVC_MSG_SAVESTATE:
{
HGCMMsgLoadSaveStateClient *pMsg = (HGCMMsgLoadSaveStateClient *)pMsgCore;
LogFlowFunc(("SVC_MSG_SAVESTATE\n"));
HGCMClient *pClient = HGCMClient::ReferenceByHandle(pMsg->u32ClientId);
vrc = VINF_SUCCESS;
if (pClient)
{
pMsg->pVMM->pfnSSMR3PutU32(pMsg->pSSM, pClient->fRequestor); /* Quicker to save this here than in the message sender. */
vrc = pMsg->pVMM->pfnSSMR3PutBool(pMsg->pSSM, pSvc->m_fntable.pfnSaveState != NULL);
if (RT_SUCCESS(vrc) && pSvc->m_fntable.pfnSaveState)
{
g_fSaveState = true;
vrc = pSvc->m_fntable.pfnSaveState(pSvc->m_fntable.pvService, pMsg->u32ClientId,
HGCM_CLIENT_DATA(pSvc, pClient), pMsg->pSSM, pMsg->pVMM);
g_fSaveState = false;
}
hgcmObjDereference(pClient);
}
else
{
vrc = VERR_HGCM_INVALID_CLIENT_ID;
}
} break;
case SVC_MSG_REGEXT:
{
HGCMMsgSvcRegisterExtension *pMsg = (HGCMMsgSvcRegisterExtension *)pMsgCore;
LogFlowFunc(("SVC_MSG_REGEXT handle = %p, pfn = %p\n", pMsg->handle, pMsg->pfnExtension));
if (pSvc->m_hExtension)
{
vrc = VERR_NOT_SUPPORTED;
}
else
{
if (pSvc->m_fntable.pfnRegisterExtension)
{
vrc = pSvc->m_fntable.pfnRegisterExtension(pSvc->m_fntable.pvService, pMsg->pfnExtension,
pMsg->pvExtension);
}
else
{
vrc = VERR_NOT_SUPPORTED;
}
if (RT_SUCCESS(vrc))
{
pSvc->m_hExtension = pMsg->handle;
}
}
} break;
case SVC_MSG_UNREGEXT:
{
HGCMMsgSvcUnregisterExtension *pMsg = (HGCMMsgSvcUnregisterExtension *)pMsgCore;
LogFlowFunc(("SVC_MSG_UNREGEXT handle = %p\n", pMsg->handle));
if (pSvc->m_hExtension != pMsg->handle)
{
vrc = VERR_NOT_SUPPORTED;
}
else
{
if (pSvc->m_fntable.pfnRegisterExtension)
{
vrc = pSvc->m_fntable.pfnRegisterExtension(pSvc->m_fntable.pvService, NULL, NULL);
}
else
{
vrc = VERR_NOT_SUPPORTED;
}
pSvc->m_hExtension = NULL;
}
} break;
case SVC_MSG_NOTIFY:
{
HGCMMsgNotify *pMsg = (HGCMMsgNotify *)pMsgCore;
LogFlowFunc(("SVC_MSG_NOTIFY enmEvent = %d\n", pMsg->enmEvent));
pSvc->m_fntable.pfnNotify(pSvc->m_fntable.pvService, pMsg->enmEvent);
} break;
default:
{
AssertMsgFailed(("hgcmServiceThread::Unsupported message number %08X\n", u32MsgId));
vrc = VERR_NOT_SUPPORTED;
} break;
}
if (u32MsgId != SVC_MSG_GUESTCALL)
{
/* For SVC_MSG_GUESTCALL the service calls the completion helper.
* Other messages have to be completed here.
*/
hgcmMsgComplete (pMsgCore, vrc);
}
STAM_REL_PROFILE_STOP(&pSvc->m_StatHandleMsg, a);
}
}
/**
* @interface_method_impl{VBOXHGCMSVCHELPERS,pfnCallComplete}
*/
/* static */ DECLCALLBACK(int) HGCMService::svcHlpCallComplete(VBOXHGCMCALLHANDLE callHandle, int32_t rc)
{
HGCMMsgCore *pMsgCore = (HGCMMsgCore *)callHandle;
/* Only call the completion for these messages. The helper
* is called by the service, and the service does not get
* any other messages.
*/
AssertMsgReturn(pMsgCore->MsgId() == SVC_MSG_GUESTCALL, ("%d\n", pMsgCore->MsgId()), VERR_WRONG_TYPE);
return hgcmMsgComplete(pMsgCore, rc);
}
/**
* @interface_method_impl{VBOXHGCMSVCHELPERS,pfnDisconnectClient}
*/
/* static */ DECLCALLBACK(int) HGCMService::svcHlpDisconnectClient(void *pvInstance, uint32_t idClient)
{
HGCMService *pService = static_cast <HGCMService *> (pvInstance);
AssertReturn(pService, VERR_INVALID_HANDLE);
/* Only safe to call when the main HGCM thread is waiting on the service
to handle a SVC_MSG_CONNECT or SVC_MSG_DISCONNECT message. Otherwise
we'd risk racing it and corrupt data structures. */
AssertReturn(pService->m_fInConnectOrDisconnect, VERR_INVALID_CONTEXT);
/* Resolve the client ID and verify that it belongs to this service before
trying to disconnect it. */
int vrc = VERR_NOT_FOUND;
HGCMClient * const pClient = HGCMClient::ReferenceByHandle(idClient);
if (pClient)
{
if (pClient->pService == pService)
vrc = pService->DisconnectClient(idClient, true, pClient);
hgcmObjDereference(pClient);
}
return vrc;
}
/**
* @interface_method_impl{VBOXHGCMSVCHELPERS,pfnIsCallRestored}
*/
/* static */ DECLCALLBACK(bool) HGCMService::svcHlpIsCallRestored(VBOXHGCMCALLHANDLE callHandle)
{
HGCMMsgHeader *pMsgHdr = (HGCMMsgHeader *)callHandle;
AssertPtrReturn(pMsgHdr, false);
PVBOXHGCMCMD pCmd = pMsgHdr->pCmd;
AssertPtrReturn(pCmd, false);
PPDMIHGCMPORT pHgcmPort = pMsgHdr->pHGCMPort;
AssertPtrReturn(pHgcmPort, false);
return pHgcmPort->pfnIsCmdRestored(pHgcmPort, pCmd);
}
/**
* @interface_method_impl{VBOXHGCMSVCHELPERS,pfnIsCallCancelled}
*/
/* static */ DECLCALLBACK(bool) HGCMService::svcHlpIsCallCancelled(VBOXHGCMCALLHANDLE callHandle)
{
HGCMMsgHeader *pMsgHdr = (HGCMMsgHeader *)callHandle;
AssertPtrReturn(pMsgHdr, false);
PVBOXHGCMCMD pCmd = pMsgHdr->pCmd;
AssertPtrReturn(pCmd, false);
PPDMIHGCMPORT pHgcmPort = pMsgHdr->pHGCMPort;
AssertPtrReturn(pHgcmPort, false);
return pHgcmPort->pfnIsCmdCancelled(pHgcmPort, pCmd);
}
/**
* @interface_method_impl{VBOXHGCMSVCHELPERS,pfnStamRegisterV}
*/
/* static */ DECLCALLBACK(int)
HGCMService::svcHlpStamRegisterV(void *pvInstance, void *pvSample, STAMTYPE enmType, STAMVISIBILITY enmVisibility,
STAMUNIT enmUnit, const char *pszDesc, const char *pszName, va_list va)
{
HGCMService *pService = static_cast <HGCMService *>(pvInstance);
AssertPtrReturn(pService, VERR_INVALID_PARAMETER);
if (pService->m_pUVM)
return pService->m_pVMM->pfnSTAMR3RegisterVU(pService->m_pUVM, pvSample, enmType, enmVisibility,
enmUnit, pszDesc, pszName, va);
return VINF_SUCCESS;
}
/**
* @interface_method_impl{VBOXHGCMSVCHELPERS,pfnStamDeregisterV}
*/
/* static */ DECLCALLBACK(int) HGCMService::svcHlpStamDeregisterV(void *pvInstance, const char *pszPatFmt, va_list va)
{
HGCMService *pService = static_cast <HGCMService *>(pvInstance);
AssertPtrReturn(pService, VERR_INVALID_PARAMETER);
if (pService->m_pUVM)
return pService->m_pVMM->pfnSTAMR3DeregisterV(pService->m_pUVM, pszPatFmt, va);
return VINF_SUCCESS;
}
/**
* @interface_method_impl{VBOXHGCMSVCHELPERS,pfnInfoRegister}
*/
/* static */ DECLCALLBACK(int) HGCMService::svcHlpInfoRegister(void *pvInstance, const char *pszName, const char *pszDesc,
PFNDBGFHANDLEREXT pfnHandler, void *pvUser)
{
HGCMService *pService = static_cast <HGCMService *>(pvInstance);
AssertPtrReturn(pService, VERR_INVALID_PARAMETER);
if (pService->m_pUVM)
return pService->m_pVMM->pfnDBGFR3InfoRegisterExternal(pService->m_pUVM, pszName, pszDesc, pfnHandler, pvUser);
return VINF_SUCCESS;
}
/**
* @interface_method_impl{VBOXHGCMSVCHELPERS,pfnInfoDeregister}
*/
/* static */ DECLCALLBACK(int) HGCMService::svcHlpInfoDeregister(void *pvInstance, const char *pszName)
{
HGCMService *pService = static_cast <HGCMService *>(pvInstance);
AssertPtrReturn(pService, VERR_INVALID_PARAMETER);
if (pService->m_pUVM)
return pService->m_pVMM->pfnDBGFR3InfoDeregisterExternal(pService->m_pUVM, pszName);
return VINF_SUCCESS;
}
/**
* @interface_method_impl{VBOXHGCMSVCHELPERS,pfnGetRequestor}
*/
/* static */ DECLCALLBACK(uint32_t) HGCMService::svcHlpGetRequestor(VBOXHGCMCALLHANDLE hCall)
{
HGCMMsgHeader *pMsgHdr = (HGCMMsgHeader *)(hCall);
AssertPtrReturn(pMsgHdr, VMMDEV_REQUESTOR_LOWEST);
PVBOXHGCMCMD pCmd = pMsgHdr->pCmd;
AssertPtrReturn(pCmd, VMMDEV_REQUESTOR_LOWEST);
PPDMIHGCMPORT pHgcmPort = pMsgHdr->pHGCMPort;
AssertPtrReturn(pHgcmPort, VMMDEV_REQUESTOR_LOWEST);
return pHgcmPort->pfnGetRequestor(pHgcmPort, pCmd);
}
/**
* @interface_method_impl{VBOXHGCMSVCHELPERS,pfnGetVMMDevSessionId}
*/
/* static */ DECLCALLBACK(uint64_t) HGCMService::svcHlpGetVMMDevSessionId(void *pvInstance)
{
HGCMService *pService = static_cast <HGCMService *>(pvInstance);
AssertPtrReturn(pService, UINT64_MAX);
PPDMIHGCMPORT pHgcmPort = pService->m_pHgcmPort;
AssertPtrReturn(pHgcmPort, UINT64_MAX);
return pHgcmPort->pfnGetVMMDevSessionId(pHgcmPort);
}
static DECLCALLBACK(int) hgcmMsgCompletionCallback(int32_t result, HGCMMsgCore *pMsgCore)
{
/* Call the VMMDev port interface to issue IRQ notification. */
HGCMMsgHeader *pMsgHdr = (HGCMMsgHeader *)pMsgCore;
LogFlow(("MAIN::hgcmMsgCompletionCallback: message %p\n", pMsgCore));
if (pMsgHdr->pHGCMPort)
{
if (!g_fResetting)
return pMsgHdr->pHGCMPort->pfnCompleted(pMsgHdr->pHGCMPort,
g_fSaveState ? VINF_HGCM_SAVE_STATE : result, pMsgHdr->pCmd);
return VERR_ALREADY_RESET; /* best I could find. */
}
return VERR_NOT_AVAILABLE;
}
/*
* The main HGCM methods of the service.
*/
int HGCMService::instanceCreate(const char *pszServiceLibrary, const char *pszServiceName,
PUVM pUVM, PCVMMR3VTABLE pVMM, PPDMIHGCMPORT pHgcmPort)
{
LogFlowFunc(("name %s, lib %s\n", pszServiceName, pszServiceLibrary));
/* The maximum length of the thread name, allowed by the RT is 15. */
char szThreadName[16];
if (!strncmp(pszServiceName, RT_STR_TUPLE("VBoxShared")))
RTStrPrintf(szThreadName, sizeof(szThreadName), "Sh%s", pszServiceName + 10);
else if (!strncmp(pszServiceName, RT_STR_TUPLE("VBox")))
RTStrCopy(szThreadName, sizeof(szThreadName), pszServiceName + 4);
else
RTStrCopy(szThreadName, sizeof(szThreadName), pszServiceName);
int vrc = hgcmThreadCreate(&m_pThread, szThreadName, hgcmServiceThread, this, pszServiceName, pUVM, pVMM);
if (RT_SUCCESS(vrc))
{
m_pszSvcName = RTStrDup(pszServiceName);
m_pszSvcLibrary = RTStrDup(pszServiceLibrary);
if (!m_pszSvcName || !m_pszSvcLibrary)
{
RTStrFree(m_pszSvcLibrary);
m_pszSvcLibrary = NULL;
RTStrFree(m_pszSvcName);
m_pszSvcName = NULL;
vrc = VERR_NO_MEMORY;
}
else
{
m_pUVM = pUVM;
m_pVMM = pVMM;
m_pHgcmPort = pHgcmPort;
registerStatistics(pszServiceName, pUVM, pVMM);
/* Initialize service helpers table. */
m_svcHelpers.pfnCallComplete = svcHlpCallComplete;
m_svcHelpers.pvInstance = this;
m_svcHelpers.pfnDisconnectClient = svcHlpDisconnectClient;
m_svcHelpers.pfnIsCallRestored = svcHlpIsCallRestored;
m_svcHelpers.pfnIsCallCancelled = svcHlpIsCallCancelled;
m_svcHelpers.pfnStamRegisterV = svcHlpStamRegisterV;
m_svcHelpers.pfnStamDeregisterV = svcHlpStamDeregisterV;
m_svcHelpers.pfnInfoRegister = svcHlpInfoRegister;
m_svcHelpers.pfnInfoDeregister = svcHlpInfoDeregister;
m_svcHelpers.pfnGetRequestor = svcHlpGetRequestor;
m_svcHelpers.pfnGetVMMDevSessionId = svcHlpGetVMMDevSessionId;
/* Execute the load request on the service thread. */
HGCMMsgCore *pCoreMsg;
vrc = hgcmMsgAlloc(m_pThread, &pCoreMsg, SVC_MSG_LOAD, hgcmMessageAllocSvc);
if (RT_SUCCESS(vrc))
{
HGCMMsgSvcLoad *pMsg = (HGCMMsgSvcLoad *)pCoreMsg;
pMsg->pUVM = pUVM;
vrc = hgcmMsgSend(pMsg);
}
}
}
if (RT_FAILURE(vrc))
{
instanceDestroy();
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
/** Called by HGCMService::instanceCreate to register statistics. */
void HGCMService::registerStatistics(const char *pszServiceName, PUVM pUVM, PCVMMR3VTABLE pVMM)
{
pVMM->pfnSTAMR3RegisterFU(pUVM, &m_StatHandleMsg, STAMTYPE_PROFILE, STAMVISIBILITY_ALWAYS, STAMUNIT_TICKS_PER_OCCURENCE,
"Message handling", "/HGCM/%s/Msg", pszServiceName);
pVMM->pfnSTAMR3RegisterFU(pUVM, &m_StatTooManyCalls, STAMTYPE_COUNTER, STAMVISIBILITY_ALWAYS, STAMUNIT_OCCURENCES,
"Too many calls (per client)", "/HGCM/%s/TooManyCalls", pszServiceName);
pVMM->pfnSTAMR3RegisterFU(pUVM, &m_StatTooManyClients, STAMTYPE_COUNTER, STAMVISIBILITY_ALWAYS, STAMUNIT_OCCURENCES,
"Too many clients", "/HGCM/%s/TooManyClients", pszServiceName);
pVMM->pfnSTAMR3RegisterFU(pUVM, &m_cClients, STAMTYPE_U32, STAMVISIBILITY_ALWAYS, STAMUNIT_OCCURENCES,
"Number of clients", "/HGCM/%s/Clients", pszServiceName);
pVMM->pfnSTAMR3RegisterFU(pUVM, &m_acClients[HGCM_CLIENT_CATEGORY_KERNEL], STAMTYPE_U32, STAMVISIBILITY_ALWAYS,
STAMUNIT_OCCURENCES, "Number of kernel clients", "/HGCM/%s/Clients/Kernel", pszServiceName);
pVMM->pfnSTAMR3RegisterFU(pUVM, &m_acClients[HGCM_CLIENT_CATEGORY_ROOT], STAMTYPE_U32, STAMVISIBILITY_ALWAYS,
STAMUNIT_OCCURENCES, "Number of root/admin clients", "/HGCM/%s/Clients/Root", pszServiceName);
pVMM->pfnSTAMR3RegisterFU(pUVM, &m_acClients[HGCM_CLIENT_CATEGORY_USER], STAMTYPE_U32, STAMVISIBILITY_ALWAYS,
STAMUNIT_OCCURENCES, "Number of regular user clients", "/HGCM/%s/Clients/User", pszServiceName);
pVMM->pfnSTAMR3RegisterFU(pUVM, &m_fntable.acMaxClients[HGCM_CLIENT_CATEGORY_KERNEL], STAMTYPE_U32, STAMVISIBILITY_ALWAYS,
STAMUNIT_OCCURENCES, "Max number of kernel clients", "/HGCM/%s/Clients/KernelMax", pszServiceName);
pVMM->pfnSTAMR3RegisterFU(pUVM, &m_fntable.acMaxClients[HGCM_CLIENT_CATEGORY_ROOT], STAMTYPE_U32, STAMVISIBILITY_ALWAYS,
STAMUNIT_OCCURENCES, "Max number of root clients", "/HGCM/%s/Clients/RootMax", pszServiceName);
pVMM->pfnSTAMR3RegisterFU(pUVM, &m_fntable.acMaxClients[HGCM_CLIENT_CATEGORY_USER], STAMTYPE_U32, STAMVISIBILITY_ALWAYS,
STAMUNIT_OCCURENCES, "Max number of user clients", "/HGCM/%s/Clients/UserMax", pszServiceName);
pVMM->pfnSTAMR3RegisterFU(pUVM, &m_fntable.idxLegacyClientCategory, STAMTYPE_U32, STAMVISIBILITY_ALWAYS,
STAMUNIT_OCCURENCES, "Legacy client mapping", "/HGCM/%s/Clients/LegacyClientMapping", pszServiceName);
pVMM->pfnSTAMR3RegisterFU(pUVM, &m_fntable.acMaxCallsPerClient[HGCM_CLIENT_CATEGORY_KERNEL], STAMTYPE_U32, STAMVISIBILITY_ALWAYS,
STAMUNIT_OCCURENCES, "Max number of call per kernel client", "/HGCM/%s/MaxCallsKernelClient", pszServiceName);
pVMM->pfnSTAMR3RegisterFU(pUVM, &m_fntable.acMaxCallsPerClient[HGCM_CLIENT_CATEGORY_ROOT], STAMTYPE_U32, STAMVISIBILITY_ALWAYS,
STAMUNIT_OCCURENCES, "Max number of call per root client", "/HGCM/%s/MaxCallsRootClient", pszServiceName);
pVMM->pfnSTAMR3RegisterFU(pUVM, &m_fntable.acMaxCallsPerClient[HGCM_CLIENT_CATEGORY_USER], STAMTYPE_U32, STAMVISIBILITY_ALWAYS,
STAMUNIT_OCCURENCES, "Max number of call per user client", "/HGCM/%s/MaxCallsUserClient", pszServiceName);
}
void HGCMService::instanceDestroy(void)
{
LogFlowFunc(("%s\n", m_pszSvcName));
HGCMMsgCore *pMsg;
int vrc = hgcmMsgAlloc(m_pThread, &pMsg, SVC_MSG_UNLOAD, hgcmMessageAllocSvc);
if (RT_SUCCESS(vrc))
{
vrc = hgcmMsgSend(pMsg);
if (RT_SUCCESS(vrc))
hgcmThreadWait(m_pThread);
}
if (m_pszSvcName && m_pUVM)
m_pVMM->pfnSTAMR3DeregisterF(m_pUVM, "/HGCM/%s/*", m_pszSvcName);
m_pUVM = NULL;
m_pHgcmPort = NULL;
RTStrFree(m_pszSvcLibrary);
m_pszSvcLibrary = NULL;
RTStrFree(m_pszSvcName);
m_pszSvcName = NULL;
if (m_paClientIds)
{
RTMemFree(m_paClientIds);
m_paClientIds = NULL;
}
}
int HGCMService::saveClientState(uint32_t u32ClientId, PSSMHANDLE pSSM, PCVMMR3VTABLE pVMM)
{
LogFlowFunc(("%s\n", m_pszSvcName));
HGCMMsgCore *pCoreMsg;
int vrc = hgcmMsgAlloc(m_pThread, &pCoreMsg, SVC_MSG_SAVESTATE, hgcmMessageAllocSvc);
if (RT_SUCCESS(vrc))
{
HGCMMsgLoadSaveStateClient *pMsg = (HGCMMsgLoadSaveStateClient *)pCoreMsg;
pMsg->u32ClientId = u32ClientId;
pMsg->pSSM = pSSM;
pMsg->pVMM = pVMM;
vrc = hgcmMsgSend(pMsg);
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
int HGCMService::loadClientState(uint32_t u32ClientId, PSSMHANDLE pSSM, PCVMMR3VTABLE pVMM, uint32_t uVersion)
{
LogFlowFunc(("%s\n", m_pszSvcName));
HGCMMsgCore *pCoreMsg;
int vrc = hgcmMsgAlloc(m_pThread, &pCoreMsg, SVC_MSG_LOADSTATE, hgcmMessageAllocSvc);
if (RT_SUCCESS(vrc))
{
HGCMMsgLoadSaveStateClient *pMsg = (HGCMMsgLoadSaveStateClient *)pCoreMsg;
pMsg->pSSM = pSSM;
pMsg->pVMM = pVMM;
pMsg->uVersion = uVersion;
pMsg->u32ClientId = u32ClientId;
vrc = hgcmMsgSend(pMsg);
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
/** The method creates a service and references it.
*
* @param pszServiceLibrary The library to be loaded.
* @param pszServiceName The name of the service.
* @param pUVM The user mode VM handle (for statistics and such).
* @param pVMM The VMM vtable (for statistics and such).
* @param pHgcmPort The VMMDev HGCM port interface.
*
* @return VBox rc.
* @thread main HGCM
*/
/* static */ int HGCMService::LoadService(const char *pszServiceLibrary, const char *pszServiceName,
PUVM pUVM, PCVMMR3VTABLE pVMM, PPDMIHGCMPORT pHgcmPort)
{
LogFlowFunc(("lib %s, name = %s, pUVM = %p\n", pszServiceLibrary, pszServiceName, pUVM));
/* Look at already loaded services to avoid double loading. */
HGCMService *pSvc;
int vrc = HGCMService::ResolveService(&pSvc, pszServiceName);
if (RT_SUCCESS(vrc))
{
/* The service is already loaded. */
pSvc->ReleaseService();
vrc = VERR_HGCM_SERVICE_EXISTS;
}
else
{
/* Create the new service. */
pSvc = new (std::nothrow) HGCMService();
if (!pSvc)
{
vrc = VERR_NO_MEMORY;
}
else
{
/* Load the library and call the initialization entry point. */
vrc = pSvc->instanceCreate(pszServiceLibrary, pszServiceName, pUVM, pVMM, pHgcmPort);
if (RT_SUCCESS(vrc))
{
/* Insert the just created service to list for future references. */
pSvc->m_pSvcNext = sm_pSvcListHead;
pSvc->m_pSvcPrev = NULL;
if (sm_pSvcListHead)
sm_pSvcListHead->m_pSvcPrev = pSvc;
else
sm_pSvcListTail = pSvc;
sm_pSvcListHead = pSvc;
sm_cServices++;
/* Reference the service (for first time) until it is unloaded on HGCM termination. */
AssertRelease(pSvc->m_u32RefCnt == 0);
pSvc->ReferenceService();
LogFlowFunc(("service %p\n", pSvc));
}
}
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
/** The method unloads a service.
*
* @thread main HGCM
*/
void HGCMService::UnloadService(bool fUvmIsInvalid)
{
LogFlowFunc(("name = %s\n", m_pszSvcName));
if (fUvmIsInvalid)
{
m_pUVM = NULL;
m_pHgcmPort = NULL;
}
/* Remove the service from the list. */
if (m_pSvcNext)
{
m_pSvcNext->m_pSvcPrev = m_pSvcPrev;
}
else
{
sm_pSvcListTail = m_pSvcPrev;
}
if (m_pSvcPrev)
{
m_pSvcPrev->m_pSvcNext = m_pSvcNext;
}
else
{
sm_pSvcListHead = m_pSvcNext;
}
sm_cServices--;
/* The service must be unloaded only if all clients were disconnected. */
LogFlowFunc(("m_u32RefCnt = %d\n", m_u32RefCnt));
AssertRelease(m_u32RefCnt == 1);
/* Now the service can be released. */
ReleaseService();
}
/** The method unloads all services.
*
* @thread main HGCM
*/
/* static */ void HGCMService::UnloadAll(bool fUvmIsInvalid)
{
while (sm_pSvcListHead)
{
sm_pSvcListHead->UnloadService(fUvmIsInvalid);
}
}
/** The method obtains a referenced pointer to the service with
* specified name. The caller must call ReleaseService when
* the pointer is no longer needed.
*
* @param ppSvc Where to store the pointer to the service.
* @param pszServiceName The name of the service.
* @return VBox rc.
* @thread main HGCM
*/
/* static */ int HGCMService::ResolveService(HGCMService **ppSvc, const char *pszServiceName)
{
LogFlowFunc(("ppSvc = %p name = %s\n",
ppSvc, pszServiceName));
if (!ppSvc || !pszServiceName)
{
return VERR_INVALID_PARAMETER;
}
HGCMService *pSvc = sm_pSvcListHead;
while (pSvc)
{
if (strcmp(pSvc->m_pszSvcName, pszServiceName) == 0)
{
break;
}
pSvc = pSvc->m_pSvcNext;
}
LogFlowFunc(("lookup in the list is %p\n", pSvc));
if (pSvc == NULL)
{
*ppSvc = NULL;
return VERR_HGCM_SERVICE_NOT_FOUND;
}
pSvc->ReferenceService();
*ppSvc = pSvc;
return VINF_SUCCESS;
}
/** The method increases reference counter.
*
* @thread main HGCM
*/
void HGCMService::ReferenceService(void)
{
ASMAtomicIncU32(&m_u32RefCnt);
LogFlowFunc(("[%s] m_u32RefCnt = %d\n", m_pszSvcName, m_u32RefCnt));
}
/** The method dereferences a service and deletes it when no more refs.
*
* @thread main HGCM
*/
void HGCMService::ReleaseService(void)
{
LogFlowFunc(("m_u32RefCnt = %d\n", m_u32RefCnt));
uint32_t u32RefCnt = ASMAtomicDecU32(&m_u32RefCnt);
AssertRelease(u32RefCnt != ~0U);
LogFlowFunc(("u32RefCnt = %d, name %s\n", u32RefCnt, m_pszSvcName));
if (u32RefCnt == 0)
{
instanceDestroy();
delete this;
}
}
/** The method is called when the VM is being reset or terminated
* and disconnects all clients from all services.
*
* @thread main HGCM
*/
/* static */ void HGCMService::Reset(void)
{
g_fResetting = true;
HGCMService *pSvc = sm_pSvcListHead;
while (pSvc)
{
while (pSvc->m_cClients && pSvc->m_paClientIds)
{
uint32_t const idClient = pSvc->m_paClientIds[0];
HGCMClient * const pClient = HGCMClient::ReferenceByHandle(idClient);
Assert(pClient);
LogFlowFunc(("handle %d/%p\n", pSvc->m_paClientIds[0], pClient));
pSvc->DisconnectClient(pSvc->m_paClientIds[0], false, pClient);
hgcmObjDereference(pClient);
}
pSvc = pSvc->m_pSvcNext;
}
g_fResetting = false;
}
/** The method saves the HGCM state.
*
* @param pSSM The saved state context.
* @param pVMM The VMM vtable.
* @return VBox status code.
* @thread main HGCM
*/
/* static */ int HGCMService::SaveState(PSSMHANDLE pSSM, PCVMMR3VTABLE pVMM)
{
/* Save the current handle count and restore afterwards to avoid client id conflicts. */
int vrc = pVMM->pfnSSMR3PutU32(pSSM, hgcmObjQueryHandleCount());
AssertRCReturn(vrc, vrc);
LogFlowFunc(("%d services to be saved:\n", sm_cServices));
/* Save number of services. */
vrc = pVMM->pfnSSMR3PutU32(pSSM, sm_cServices);
AssertRCReturn(vrc, vrc);
/* Save every service. */
HGCMService *pSvc = sm_pSvcListHead;
while (pSvc)
{
LogFlowFunc(("Saving service [%s]\n", pSvc->m_pszSvcName));
/* Save the length of the service name. */
vrc = pVMM->pfnSSMR3PutU32(pSSM, (uint32_t) strlen(pSvc->m_pszSvcName) + 1);
AssertRCReturn(vrc, vrc);
/* Save the name of the service. */
vrc = pVMM->pfnSSMR3PutStrZ(pSSM, pSvc->m_pszSvcName);
AssertRCReturn(vrc, vrc);
/* Save the number of clients. */
vrc = pVMM->pfnSSMR3PutU32(pSSM, pSvc->m_cClients);
AssertRCReturn(vrc, vrc);
/* Call the service for every client. Normally a service must not have
* a global state to be saved: only per client info is relevant.
* The global state of a service is configured during VM startup.
*/
uint32_t i;
for (i = 0; i < pSvc->m_cClients; i++)
{
uint32_t u32ClientId = pSvc->m_paClientIds[i];
Log(("client id 0x%08X\n", u32ClientId));
/* Save the client id. (fRequestor is saved via SVC_MSG_SAVESTATE for convenience.) */
vrc = pVMM->pfnSSMR3PutU32(pSSM, u32ClientId);
AssertRCReturn(vrc, vrc);
/* Call the service, so the operation is executed by the service thread. */
vrc = pSvc->saveClientState(u32ClientId, pSSM, pVMM);
AssertRCReturn(vrc, vrc);
}
pSvc = pSvc->m_pSvcNext;
}
return VINF_SUCCESS;
}
/** The method loads saved HGCM state.
*
* @param pSSM The saved state handle.
* @param pVMM The VMM vtable.
* @param uVersion The state version being loaded.
* @return VBox status code.
* @thread main HGCM
*/
/* static */ int HGCMService::LoadState(PSSMHANDLE pSSM, PCVMMR3VTABLE pVMM, uint32_t uVersion)
{
/* Restore handle count to avoid client id conflicts. */
uint32_t u32;
int vrc = pVMM->pfnSSMR3GetU32(pSSM, &u32);
AssertRCReturn(vrc, vrc);
hgcmObjSetHandleCount(u32);
/* Get the number of services. */
uint32_t cServices;
vrc = pVMM->pfnSSMR3GetU32(pSSM, &cServices);
AssertRCReturn(vrc, vrc);
LogFlowFunc(("%d services to be restored:\n", cServices));
while (cServices--)
{
/* Get the length of the service name. */
vrc = pVMM->pfnSSMR3GetU32(pSSM, &u32);
AssertRCReturn(vrc, vrc);
AssertReturn(u32 <= VBOX_HGCM_SVC_NAME_MAX_BYTES, VERR_SSM_UNEXPECTED_DATA);
/* Get the service name. */
char szServiceName[VBOX_HGCM_SVC_NAME_MAX_BYTES];
vrc = pVMM->pfnSSMR3GetStrZ(pSSM, szServiceName, u32);
AssertRCReturn(vrc, vrc);
LogRel(("HGCM: Restoring [%s]\n", szServiceName));
/* Resolve the service instance. */
HGCMService *pSvc;
vrc = ResolveService(&pSvc, szServiceName);
AssertLogRelMsgReturn(pSvc, ("vrc=%Rrc, %s\n", vrc, szServiceName), VERR_SSM_UNEXPECTED_DATA);
/* Get the number of clients. */
uint32_t cClients;
vrc = pVMM->pfnSSMR3GetU32(pSSM, &cClients);
if (RT_FAILURE(vrc))
{
pSvc->ReleaseService();
AssertFailed();
return vrc;
}
while (cClients--)
{
/* Get the client ID and fRequest (convieniently save via SVC_MSG_SAVESTATE
but restored here in time for calling CreateAndConnectClient). */
uint32_t u32ClientId;
vrc = pVMM->pfnSSMR3GetU32(pSSM, &u32ClientId);
uint32_t fRequestor = VMMDEV_REQUESTOR_LEGACY;
if (RT_SUCCESS(vrc) && uVersion > HGCM_SAVED_STATE_VERSION_V2)
vrc = pVMM->pfnSSMR3GetU32(pSSM, &fRequestor);
AssertLogRelMsgRCReturnStmt(vrc, ("vrc=%Rrc, %s\n", vrc, szServiceName), pSvc->ReleaseService(), vrc);
/* Connect the client. */
vrc = pSvc->CreateAndConnectClient(NULL, u32ClientId, fRequestor, true /*fRestoring*/);
AssertLogRelMsgRCReturnStmt(vrc, ("vrc=%Rrc, %s\n", vrc, szServiceName), pSvc->ReleaseService(), vrc);
/* Call the service, so the operation is executed by the service thread. */
vrc = pSvc->loadClientState(u32ClientId, pSSM, pVMM, uVersion);
AssertLogRelMsgRCReturnStmt(vrc, ("vrc=%Rrc, %s\n", vrc, szServiceName), pSvc->ReleaseService(), vrc);
}
pSvc->ReleaseService();
}
return VINF_SUCCESS;
}
/* Create a new client instance and connect it to the service.
*
* @param pu32ClientIdOut If not NULL, then the method must generate a new handle for the client.
* If NULL, use the given 'u32ClientIdIn' handle.
* @param u32ClientIdIn The handle for the client, when 'pu32ClientIdOut' is NULL.
* @param fRequestor The requestor flags, VMMDEV_REQUESTOR_LEGACY if not available.
* @param fRestoring Set if we're restoring a saved state.
* @return VBox status code.
*/
int HGCMService::CreateAndConnectClient(uint32_t *pu32ClientIdOut, uint32_t u32ClientIdIn, uint32_t fRequestor, bool fRestoring)
{
LogFlowFunc(("pu32ClientIdOut = %p, u32ClientIdIn = %d, fRequestor = %#x, fRestoring = %d\n",
pu32ClientIdOut, u32ClientIdIn, fRequestor, fRestoring));
/*
* Categorize the client (compress VMMDEV_REQUESTOR_USR_MASK)
* and check the respective client limit.
*/
uint32_t idxClientCategory;
if (fRequestor == VMMDEV_REQUESTOR_LEGACY)
{
idxClientCategory = m_fntable.idxLegacyClientCategory;
AssertStmt(idxClientCategory < RT_ELEMENTS(m_acClients), idxClientCategory = HGCM_CLIENT_CATEGORY_KERNEL);
}
else
switch (fRequestor & VMMDEV_REQUESTOR_USR_MASK)
{
case VMMDEV_REQUESTOR_USR_DRV:
case VMMDEV_REQUESTOR_USR_DRV_OTHER:
idxClientCategory = HGCM_CLIENT_CATEGORY_KERNEL;
break;
case VMMDEV_REQUESTOR_USR_ROOT:
case VMMDEV_REQUESTOR_USR_SYSTEM:
idxClientCategory = HGCM_CLIENT_CATEGORY_ROOT;
break;
default:
idxClientCategory = HGCM_CLIENT_CATEGORY_USER;
break;
}
if ( m_acClients[idxClientCategory] < m_fntable.acMaxClients[idxClientCategory]
|| fRestoring)
{ }
else
{
LogRel2(("Too many concurrenct clients for HGCM service '%s': %u, max %u; category %u\n",
m_pszSvcName, m_cClients, m_fntable.acMaxClients[idxClientCategory], idxClientCategory));
STAM_REL_COUNTER_INC(&m_StatTooManyClients);
return VERR_HGCM_TOO_MANY_CLIENTS;
}
/* Allocate a client information structure. */
HGCMClient *pClient = new (std::nothrow) HGCMClient(fRequestor, idxClientCategory);
if (!pClient)
{
Log1WarningFunc(("Could not allocate HGCMClient!!!\n"));
return VERR_NO_MEMORY;
}
uint32_t handle;
if (pu32ClientIdOut != NULL)
{
handle = hgcmObjGenerateHandle(pClient);
}
else
{
handle = hgcmObjAssignHandle(pClient, u32ClientIdIn);
}
LogFlowFunc(("client id = %d\n", handle));
AssertRelease(handle);
/* Initialize the HGCM part of the client. */
int vrc = pClient->Init(this);
if (RT_SUCCESS(vrc))
{
/* Call the service. */
HGCMMsgCore *pCoreMsg;
vrc = hgcmMsgAlloc(m_pThread, &pCoreMsg, SVC_MSG_CONNECT, hgcmMessageAllocSvc);
if (RT_SUCCESS(vrc))
{
HGCMMsgSvcConnect *pMsg = (HGCMMsgSvcConnect *)pCoreMsg;
pMsg->u32ClientId = handle;
pMsg->fRequestor = fRequestor;
pMsg->fRestoring = fRestoring;
vrc = hgcmMsgSend(pMsg);
if (RT_SUCCESS(vrc))
{
/* Add the client Id to the array. */
if (m_cClients == m_cClientsAllocated)
{
const uint32_t cDelta = 64;
/* Guards against integer overflow on 32bit arch and also limits size of m_paClientIds array to 4GB*/
if (m_cClientsAllocated < UINT32_MAX / sizeof(m_paClientIds[0]) - cDelta)
{
uint32_t *paClientIdsNew;
paClientIdsNew = (uint32_t *)RTMemRealloc(m_paClientIds,
(m_cClientsAllocated + cDelta) * sizeof(m_paClientIds[0]));
Assert(paClientIdsNew);
if (paClientIdsNew)
{
m_paClientIds = paClientIdsNew;
m_cClientsAllocated += cDelta;
}
else
{
vrc = VERR_NO_MEMORY;
}
}
else
{
vrc = VERR_NO_MEMORY;
}
}
if (RT_SUCCESS(vrc))
{
m_paClientIds[m_cClients] = handle;
m_cClients++;
m_acClients[idxClientCategory]++;
LogFunc(("idClient=%u m_cClients=%u m_acClients[%u]=%u %s\n",
handle, m_cClients, idxClientCategory, m_acClients[idxClientCategory], m_pszSvcName));
}
}
}
}
if (RT_SUCCESS(vrc))
{
if (pu32ClientIdOut != NULL)
{
*pu32ClientIdOut = handle;
}
ReferenceService();
/* The guest may now use this client object. */
pClient->makeAccessibleToGuest();
}
else
{
hgcmObjDeleteHandle(handle);
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
/**
* Disconnect the client from the service and delete the client handle.
*
* @param u32ClientId The handle of the client.
* @param fFromService Set if called by the service via
* svcHlpDisconnectClient().
* @param pClient The client disconnecting.
* @return VBox status code.
*/
int HGCMService::DisconnectClient(uint32_t u32ClientId, bool fFromService, HGCMClient *pClient)
{
AssertPtr(pClient);
LogFlowFunc(("client id = %d, fFromService = %d, pClient = %p\n", u32ClientId, fFromService, pClient));
/*
* Destroy the client handle prior to the disconnecting to avoid creating
* a race with other messages from the same client. See @bugref{10038}
* for further details.
*/
Assert(pClient->idxCategory < HGCM_CLIENT_CATEGORY_MAX);
Assert(m_acClients[pClient->idxCategory] > 0);
bool fReleaseService = false;
int vrc = VERR_NOT_FOUND;
for (uint32_t i = 0; i < m_cClients; i++)
{
if (m_paClientIds[i] == u32ClientId)
{
if (m_acClients[pClient->idxCategory] > 0)
m_acClients[pClient->idxCategory]--;
m_cClients--;
if (m_cClients > i)
memmove(&m_paClientIds[i], &m_paClientIds[i + 1], sizeof(m_paClientIds[0]) * (m_cClients - i));
/* Delete the client handle. */
hgcmObjDeleteHandle(u32ClientId);
fReleaseService = true;
vrc = VINF_SUCCESS;
break;
}
}
/* Some paranoia wrt to not trusting the client ID array. */
Assert(vrc == VINF_SUCCESS || fFromService);
if (vrc == VERR_NOT_FOUND && !fFromService)
{
if (m_acClients[pClient->idxCategory] > 0)
m_acClients[pClient->idxCategory]--;
hgcmObjDeleteHandle(u32ClientId);
fReleaseService = true;
}
LogFunc(("idClient=%u m_cClients=%u m_acClients[%u]=%u %s (cPendingCalls=%u) rc=%Rrc\n", u32ClientId, m_cClients,
pClient->idxCategory, m_acClients[pClient->idxCategory], m_pszSvcName, pClient->cPendingCalls, vrc));
/*
* Call the service.
*/
if (!fFromService)
{
/* Call the service. */
HGCMMsgCore *pCoreMsg;
vrc = hgcmMsgAlloc(m_pThread, &pCoreMsg, SVC_MSG_DISCONNECT, hgcmMessageAllocSvc);
if (RT_SUCCESS(vrc))
{
HGCMMsgSvcDisconnect *pMsg = (HGCMMsgSvcDisconnect *)pCoreMsg;
pMsg->u32ClientId = u32ClientId;
pMsg->pClient = pClient;
vrc = hgcmMsgSend(pMsg);
}
else
{
LogRel(("(%d, %d) [%s] hgcmMsgAlloc(%p, SVC_MSG_DISCONNECT) failed %Rrc\n",
u32ClientId, fFromService, RT_VALID_PTR(m_pszSvcName)? m_pszSvcName: "", m_pThread, vrc));
}
}
/*
* Release the pClient->pService reference.
*/
if (fReleaseService)
ReleaseService();
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
int HGCMService::RegisterExtension(HGCMSVCEXTHANDLE handle,
PFNHGCMSVCEXT pfnExtension,
void *pvExtension)
{
LogFlowFunc(("%s\n", handle->pszServiceName));
/* Forward the message to the service thread. */
HGCMMsgCore *pCoreMsg;
int vrc = hgcmMsgAlloc(m_pThread, &pCoreMsg, SVC_MSG_REGEXT, hgcmMessageAllocSvc);
if (RT_SUCCESS(vrc))
{
HGCMMsgSvcRegisterExtension *pMsg = (HGCMMsgSvcRegisterExtension *)pCoreMsg;
pMsg->handle = handle;
pMsg->pfnExtension = pfnExtension;
pMsg->pvExtension = pvExtension;
vrc = hgcmMsgSend(pMsg);
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
void HGCMService::UnregisterExtension(HGCMSVCEXTHANDLE handle)
{
/* Forward the message to the service thread. */
HGCMMsgCore *pCoreMsg;
int vrc = hgcmMsgAlloc(m_pThread, &pCoreMsg, SVC_MSG_UNREGEXT, hgcmMessageAllocSvc);
if (RT_SUCCESS(vrc))
{
HGCMMsgSvcUnregisterExtension *pMsg = (HGCMMsgSvcUnregisterExtension *)pCoreMsg;
pMsg->handle = handle;
vrc = hgcmMsgSend(pMsg);
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
}
/** @callback_method_impl{FNHGCMMSGCALLBACK} */
static DECLCALLBACK(int) hgcmMsgCallCompletionCallback(int32_t result, HGCMMsgCore *pMsgCore)
{
/*
* Do common message completion then decrement the call counter
* for the client if necessary.
*/
int vrc = hgcmMsgCompletionCallback(result, pMsgCore);
HGCMMsgCall *pMsg = (HGCMMsgCall *)pMsgCore;
if (pMsg->pcCounter)
{
uint32_t cCalls = ASMAtomicDecU32(pMsg->pcCounter);
AssertStmt(cCalls < UINT32_MAX / 2, ASMAtomicWriteU32(pMsg->pcCounter, 0));
pMsg->pcCounter = NULL;
Log3Func(("pMsg=%p cPendingCalls=%u / %u (fun %u, %u parms)\n",
pMsg, cCalls, pMsg->u32ClientId, pMsg->u32Function, pMsg->cParms));
}
return vrc;
}
/** Perform a guest call to the service.
*
* @param pHGCMPort The port to be used for completion confirmation.
* @param pCmd The VBox HGCM context.
* @param u32ClientId The client handle to be disconnected and deleted.
* @param pClient The client data.
* @param u32Function The function number.
* @param cParms Number of parameters.
* @param paParms Pointer to array of parameters.
* @param tsArrival The STAM_GET_TS() value when the request arrived.
* @return VBox rc.
* @retval VINF_HGCM_ASYNC_EXECUTE on success.
*/
int HGCMService::GuestCall(PPDMIHGCMPORT pHGCMPort, PVBOXHGCMCMD pCmd, uint32_t u32ClientId, HGCMClient *pClient,
uint32_t u32Function, uint32_t cParms, VBOXHGCMSVCPARM paParms[], uint64_t tsArrival)
{
LogFlow(("MAIN::HGCMService::GuestCall\n"));
int vrc;
HGCMMsgCall *pMsg = new(std::nothrow) HGCMMsgCall(m_pThread);
if (pMsg)
{
pMsg->Reference(); /** @todo starts out with zero references. */
uint32_t cCalls = ASMAtomicIncU32(&pClient->cPendingCalls);
Assert(pClient->idxCategory < RT_ELEMENTS(m_fntable.acMaxCallsPerClient));
if (cCalls < m_fntable.acMaxCallsPerClient[pClient->idxCategory])
{
pMsg->pcCounter = &pClient->cPendingCalls;
Log3(("MAIN::HGCMService::GuestCall: pMsg=%p cPendingCalls=%u / %u / %s (fun %u, %u parms)\n",
pMsg, cCalls, u32ClientId, m_pszSvcName, u32Function, cParms));
pMsg->pCmd = pCmd;
pMsg->pHGCMPort = pHGCMPort;
pMsg->u32ClientId = u32ClientId;
pMsg->u32Function = u32Function;
pMsg->cParms = cParms;
pMsg->paParms = paParms;
pMsg->tsArrival = tsArrival;
vrc = hgcmMsgPost(pMsg, hgcmMsgCallCompletionCallback);
if (RT_SUCCESS(vrc))
{ /* Reference donated on success. */ }
else
{
ASMAtomicDecU32(&pClient->cPendingCalls);
pMsg->pcCounter = NULL;
Log(("MAIN::HGCMService::GuestCall: hgcmMsgPost failed: %Rrc\n", vrc));
pMsg->Dereference();
}
}
else
{
ASMAtomicDecU32(&pClient->cPendingCalls);
LogRel2(("HGCM: Too many calls to '%s' from client %u: %u, max %u; category %u\n", m_pszSvcName, u32ClientId,
cCalls, m_fntable.acMaxCallsPerClient[pClient->idxCategory], pClient->idxCategory));
pMsg->Dereference();
STAM_REL_COUNTER_INC(&m_StatTooManyCalls);
vrc = VERR_HGCM_TOO_MANY_CLIENT_CALLS;
}
}
else
{
Log(("MAIN::HGCMService::GuestCall: Message allocation failed\n"));
vrc = VERR_NO_MEMORY;
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
/** Guest cancelled a request (call, connection attempt, disconnect attempt).
*
* @param pHGCMPort The port to be used for completion confirmation
* @param pCmd The VBox HGCM context.
* @param idClient The client handle to be disconnected and deleted.
* @return VBox rc.
*/
void HGCMService::GuestCancelled(PPDMIHGCMPORT pHGCMPort, PVBOXHGCMCMD pCmd, uint32_t idClient)
{
LogFlow(("MAIN::HGCMService::GuestCancelled\n"));
if (m_fntable.pfnCancelled)
{
HGCMMsgCancelled *pMsg = new (std::nothrow) HGCMMsgCancelled(m_pThread);
if (pMsg)
{
pMsg->Reference(); /** @todo starts out with zero references. */
pMsg->pCmd = pCmd;
pMsg->pHGCMPort = pHGCMPort;
pMsg->idClient = idClient;
hgcmMsgPost(pMsg, NULL);
}
else
Log(("MAIN::HGCMService::GuestCancelled: Message allocation failed\n"));
}
}
/** Perform a host call the service.
*
* @param u32Function The function number.
* @param cParms Number of parameters.
* @param paParms Pointer to array of parameters.
* @return VBox rc.
*/
int HGCMService::HostCall(uint32_t u32Function, uint32_t cParms, VBOXHGCMSVCPARM *paParms)
{
LogFlowFunc(("%s u32Function = %d, cParms = %d, paParms = %p\n",
m_pszSvcName, u32Function, cParms, paParms));
HGCMMsgCore *pCoreMsg;
int vrc = hgcmMsgAlloc(m_pThread, &pCoreMsg, SVC_MSG_HOSTCALL, hgcmMessageAllocSvc);
if (RT_SUCCESS(vrc))
{
HGCMMsgHostCallSvc *pMsg = (HGCMMsgHostCallSvc *)pCoreMsg;
pMsg->u32Function = u32Function;
pMsg->cParms = cParms;
pMsg->paParms = paParms;
vrc = hgcmMsgSend(pMsg);
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
/** Posts a broadcast notification event to all interested services.
*
* @param enmEvent The notification event.
*/
/*static*/ void HGCMService::BroadcastNotify(HGCMNOTIFYEVENT enmEvent)
{
for (HGCMService *pService = sm_pSvcListHead; pService != NULL; pService = pService->m_pSvcNext)
{
pService->Notify(enmEvent);
}
}
/** Posts a broadcast notification event to the service.
*
* @param enmEvent The notification event.
*/
void HGCMService::Notify(HGCMNOTIFYEVENT enmEvent)
{
LogFlowFunc(("%s enmEvent=%d pfnNotify=%p\n", m_pszSvcName, enmEvent, m_fntable.pfnNotify));
if (m_fntable.pfnNotify)
{
HGCMMsgCore *pCoreMsg;
int vrc = hgcmMsgAlloc(m_pThread, &pCoreMsg, SVC_MSG_NOTIFY, hgcmMessageAllocSvc);
if (RT_SUCCESS(vrc))
{
HGCMMsgNotify *pMsg = (HGCMMsgNotify *)pCoreMsg;
pMsg->enmEvent = enmEvent;
vrc = hgcmMsgPost(pMsg, NULL);
AssertRC(vrc);
}
}
}
/*
* Main HGCM thread that manages services.
*/
/* Messages processed by the main HGCM thread. */
#define HGCM_MSG_CONNECT (10) /**< Connect a client to a service. */
#define HGCM_MSG_DISCONNECT (11) /**< Disconnect the specified client id. */
#define HGCM_MSG_LOAD (12) /**< Load the service. */
#define HGCM_MSG_HOSTCALL (13) /**< Call the service. */
#define HGCM_MSG_LOADSTATE (14) /**< Load saved state for the specified service. */
#define HGCM_MSG_SAVESTATE (15) /**< Save state for the specified service. */
#define HGCM_MSG_RESET (16) /**< Disconnect all clients from the specified service. */
#define HGCM_MSG_QUIT (17) /**< Unload all services and terminate the thread. */
#define HGCM_MSG_REGEXT (18) /**< Register a service extension. */
#define HGCM_MSG_UNREGEXT (19) /**< Unregister a service extension. */
#define HGCM_MSG_BRD_NOTIFY (20) /**< Broadcast notification event (VM state change). */
class HGCMMsgMainConnect: public HGCMMsgHeader
{
public:
/* Service name. */
const char *pszServiceName;
/* Where to store the client handle. */
uint32_t *pu32ClientId;
};
class HGCMMsgMainDisconnect: public HGCMMsgHeader
{
public:
/* Handle of the client to be disconnected. */
uint32_t u32ClientId;
};
class HGCMMsgMainLoad: public HGCMMsgCore
{
public:
/* Name of the library to be loaded. */
const char *pszServiceLibrary;
/* Name to be assigned to the service. */
const char *pszServiceName;
/** The user mode VM handle (for statistics and such). */
PUVM pUVM;
/** The VMM vtable (for statistics and such). */
PCVMMR3VTABLE pVMM;
/** The HGCM port on the VMMDev device (for session ID and such). */
PPDMIHGCMPORT pHgcmPort;
};
class HGCMMsgMainHostCall: public HGCMMsgCore
{
public:
/* Which service to call. */
const char *pszServiceName;
/* Function number. */
uint32_t u32Function;
/* Number of the function parameters. */
uint32_t cParms;
/* Pointer to array of the function parameters. */
VBOXHGCMSVCPARM *paParms;
};
class HGCMMsgMainLoadSaveState: public HGCMMsgCore
{
public:
/** Saved state handle. */
PSSMHANDLE pSSM;
/** The VMM vtable. */
PCVMMR3VTABLE pVMM;
/** The HGCM saved state version being loaded (ignore for save). */
uint32_t uVersion;
};
class HGCMMsgMainReset: public HGCMMsgCore
{
public:
/** Set if this is actually a shutdown and not a VM reset. */
bool fForShutdown;
};
class HGCMMsgMainQuit: public HGCMMsgCore
{
public:
/** Whether UVM has gone invalid already or not. */
bool fUvmIsInvalid;
};
class HGCMMsgMainRegisterExtension: public HGCMMsgCore
{
public:
/** Returned handle to be used in HGCMMsgMainUnregisterExtension. */
HGCMSVCEXTHANDLE *pHandle;
/** Name of the service. */
const char *pszServiceName;
/** The extension entry point. */
PFNHGCMSVCEXT pfnExtension;
/** The extension pointer. */
void *pvExtension;
};
class HGCMMsgMainUnregisterExtension: public HGCMMsgCore
{
public:
/* Handle of the registered extension. */
HGCMSVCEXTHANDLE handle;
};
class HGCMMsgMainBroadcastNotify: public HGCMMsgCore
{
public:
/** The notification event. */
HGCMNOTIFYEVENT enmEvent;
};
static HGCMMsgCore *hgcmMainMessageAlloc (uint32_t u32MsgId)
{
switch (u32MsgId)
{
case HGCM_MSG_CONNECT: return new HGCMMsgMainConnect();
case HGCM_MSG_DISCONNECT: return new HGCMMsgMainDisconnect();
case HGCM_MSG_LOAD: return new HGCMMsgMainLoad();
case HGCM_MSG_HOSTCALL: return new HGCMMsgMainHostCall();
case HGCM_MSG_LOADSTATE:
case HGCM_MSG_SAVESTATE: return new HGCMMsgMainLoadSaveState();
case HGCM_MSG_RESET: return new HGCMMsgMainReset();
case HGCM_MSG_QUIT: return new HGCMMsgMainQuit();
case HGCM_MSG_REGEXT: return new HGCMMsgMainRegisterExtension();
case HGCM_MSG_UNREGEXT: return new HGCMMsgMainUnregisterExtension();
case HGCM_MSG_BRD_NOTIFY: return new HGCMMsgMainBroadcastNotify();
default:
AssertReleaseMsgFailed(("Msg id = %08X\n", u32MsgId));
}
return NULL;
}
/* The main HGCM thread handler. */
static DECLCALLBACK(void) hgcmThread(HGCMThread *pThread, void *pvUser)
{
LogFlowFunc(("pThread = %p, pvUser = %p\n", pThread, pvUser));
NOREF(pvUser);
bool fQuit = false;
while (!fQuit)
{
HGCMMsgCore *pMsgCore;
int vrc = hgcmMsgGet(pThread, &pMsgCore);
if (RT_FAILURE(vrc))
{
/* The error means some serious unrecoverable problem in the hgcmMsg/hgcmThread layer. */
AssertMsgFailed(("%Rrc\n", vrc));
break;
}
uint32_t u32MsgId = pMsgCore->MsgId();
switch (u32MsgId)
{
case HGCM_MSG_CONNECT:
{
HGCMMsgMainConnect *pMsg = (HGCMMsgMainConnect *)pMsgCore;
LogFlowFunc(("HGCM_MSG_CONNECT pszServiceName %s, pu32ClientId %p\n",
pMsg->pszServiceName, pMsg->pu32ClientId));
/* Resolve the service name to the pointer to service instance.
*/
HGCMService *pService;
vrc = HGCMService::ResolveService(&pService, pMsg->pszServiceName);
if (RT_SUCCESS(vrc))
{
/* Call the service instance method. */
vrc = pService->CreateAndConnectClient(pMsg->pu32ClientId,
0,
pMsg->pHGCMPort->pfnGetRequestor(pMsg->pHGCMPort, pMsg->pCmd),
pMsg->pHGCMPort->pfnIsCmdRestored(pMsg->pHGCMPort, pMsg->pCmd));
/* Release the service after resolve. */
pService->ReleaseService();
}
} break;
case HGCM_MSG_DISCONNECT:
{
HGCMMsgMainDisconnect *pMsg = (HGCMMsgMainDisconnect *)pMsgCore;
LogFlowFunc(("HGCM_MSG_DISCONNECT u32ClientId = %d\n",
pMsg->u32ClientId));
HGCMClient *pClient = HGCMClient::ReferenceByHandle(pMsg->u32ClientId);
if (!pClient)
{
vrc = VERR_HGCM_INVALID_CLIENT_ID;
break;
}
/* The service the client belongs to. */
HGCMService *pService = pClient->pService;
/* Call the service instance to disconnect the client. */
vrc = pService->DisconnectClient(pMsg->u32ClientId, false, pClient);
hgcmObjDereference(pClient);
} break;
case HGCM_MSG_LOAD:
{
HGCMMsgMainLoad *pMsg = (HGCMMsgMainLoad *)pMsgCore;
LogFlowFunc(("HGCM_MSG_LOAD pszServiceName = %s, pMsg->pszServiceLibrary = %s, pMsg->pUVM = %p\n",
pMsg->pszServiceName, pMsg->pszServiceLibrary, pMsg->pUVM));
vrc = HGCMService::LoadService(pMsg->pszServiceLibrary, pMsg->pszServiceName,
pMsg->pUVM, pMsg->pVMM, pMsg->pHgcmPort);
} break;
case HGCM_MSG_HOSTCALL:
{
HGCMMsgMainHostCall *pMsg = (HGCMMsgMainHostCall *)pMsgCore;
LogFlowFunc(("HGCM_MSG_HOSTCALL pszServiceName %s, u32Function %d, cParms %d, paParms %p\n",
pMsg->pszServiceName, pMsg->u32Function, pMsg->cParms, pMsg->paParms));
/* Resolve the service name to the pointer to service instance. */
HGCMService *pService;
vrc = HGCMService::ResolveService(&pService, pMsg->pszServiceName);
if (RT_SUCCESS(vrc))
{
vrc = pService->HostCall(pMsg->u32Function, pMsg->cParms, pMsg->paParms);
pService->ReleaseService();
}
} break;
case HGCM_MSG_BRD_NOTIFY:
{
HGCMMsgMainBroadcastNotify *pMsg = (HGCMMsgMainBroadcastNotify *)pMsgCore;
LogFlowFunc(("HGCM_MSG_BRD_NOTIFY enmEvent=%d\n", pMsg->enmEvent));
HGCMService::BroadcastNotify(pMsg->enmEvent);
} break;
case HGCM_MSG_RESET:
{
LogFlowFunc(("HGCM_MSG_RESET\n"));
HGCMService::Reset();
HGCMMsgMainReset *pMsg = (HGCMMsgMainReset *)pMsgCore;
if (!pMsg->fForShutdown)
HGCMService::BroadcastNotify(HGCMNOTIFYEVENT_RESET);
} break;
case HGCM_MSG_LOADSTATE:
{
HGCMMsgMainLoadSaveState *pMsg = (HGCMMsgMainLoadSaveState *)pMsgCore;
LogFlowFunc(("HGCM_MSG_LOADSTATE\n"));
vrc = HGCMService::LoadState(pMsg->pSSM, pMsg->pVMM, pMsg->uVersion);
} break;
case HGCM_MSG_SAVESTATE:
{
HGCMMsgMainLoadSaveState *pMsg = (HGCMMsgMainLoadSaveState *)pMsgCore;
LogFlowFunc(("HGCM_MSG_SAVESTATE\n"));
vrc = HGCMService::SaveState(pMsg->pSSM, pMsg->pVMM);
} break;
case HGCM_MSG_QUIT:
{
HGCMMsgMainQuit *pMsg = (HGCMMsgMainQuit *)pMsgCore;
LogFlowFunc(("HGCM_MSG_QUIT\n"));
HGCMService::UnloadAll(pMsg->fUvmIsInvalid);
fQuit = true;
} break;
case HGCM_MSG_REGEXT:
{
HGCMMsgMainRegisterExtension *pMsg = (HGCMMsgMainRegisterExtension *)pMsgCore;
LogFlowFunc(("HGCM_MSG_REGEXT\n"));
/* Allocate the handle data. */
HGCMSVCEXTHANDLE handle = (HGCMSVCEXTHANDLE)RTMemAllocZ(sizeof(struct _HGCMSVCEXTHANDLEDATA)
+ strlen(pMsg->pszServiceName)
+ sizeof(char));
if (handle == NULL)
{
vrc = VERR_NO_MEMORY;
}
else
{
handle->pszServiceName = (char *)((uint8_t *)handle + sizeof(struct _HGCMSVCEXTHANDLEDATA));
strcpy(handle->pszServiceName, pMsg->pszServiceName);
HGCMService *pService;
vrc = HGCMService::ResolveService(&pService, handle->pszServiceName);
if (RT_SUCCESS(vrc))
{
pService->RegisterExtension(handle, pMsg->pfnExtension, pMsg->pvExtension);
pService->ReleaseService();
}
if (RT_FAILURE(vrc))
{
RTMemFree(handle);
}
else
{
*pMsg->pHandle = handle;
}
}
} break;
case HGCM_MSG_UNREGEXT:
{
HGCMMsgMainUnregisterExtension *pMsg = (HGCMMsgMainUnregisterExtension *)pMsgCore;
LogFlowFunc(("HGCM_MSG_UNREGEXT\n"));
HGCMService *pService;
vrc = HGCMService::ResolveService(&pService, pMsg->handle->pszServiceName);
if (RT_SUCCESS(vrc))
{
pService->UnregisterExtension(pMsg->handle);
pService->ReleaseService();
}
RTMemFree(pMsg->handle);
} break;
default:
{
AssertMsgFailed(("hgcmThread: Unsupported message number %08X!!!\n", u32MsgId));
vrc = VERR_NOT_SUPPORTED;
} break;
}
/* Complete the message processing. */
hgcmMsgComplete(pMsgCore, vrc);
LogFlowFunc(("message processed %Rrc\n", vrc));
}
}
/*
* The HGCM API.
*/
/** The main hgcm thread. */
static HGCMThread *g_pHgcmThread = 0;
/*
* Public HGCM functions.
*
* hgcmGuest* - called as a result of the guest HGCM requests.
* hgcmHost* - called by the host.
*/
/* Load a HGCM service from the specified library.
* Assign the specified name to the service.
*
* @param pszServiceLibrary The library to be loaded.
* @param pszServiceName The name to be assigned to the service.
* @param pUVM The user mode VM handle (for statistics and such).
* @param pVMM The VMM vtable (for statistics and such).
* @param pHgcmPort The HGCM port on the VMMDev device (for session ID and such).
* @return VBox rc.
*/
int HGCMHostLoad(const char *pszServiceLibrary,
const char *pszServiceName,
PUVM pUVM,
PCVMMR3VTABLE pVMM,
PPDMIHGCMPORT pHgcmPort)
{
LogFlowFunc(("lib = %s, name = %s\n", pszServiceLibrary, pszServiceName));
if (!pszServiceLibrary || !pszServiceName)
return VERR_INVALID_PARAMETER;
/* Forward the request to the main hgcm thread. */
HGCMMsgCore *pCoreMsg;
int vrc = hgcmMsgAlloc(g_pHgcmThread, &pCoreMsg, HGCM_MSG_LOAD, hgcmMainMessageAlloc);
if (RT_SUCCESS(vrc))
{
/* Initialize the message. Since the message is synchronous, use the supplied pointers. */
HGCMMsgMainLoad *pMsg = (HGCMMsgMainLoad *)pCoreMsg;
pMsg->pszServiceLibrary = pszServiceLibrary;
pMsg->pszServiceName = pszServiceName;
pMsg->pUVM = pUVM;
pMsg->pVMM = pVMM;
pMsg->pHgcmPort = pHgcmPort;
vrc = hgcmMsgSend(pMsg);
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
/* Register a HGCM service extension.
*
* @param pHandle Returned handle for the registered extension.
* @param pszServiceName The name of the service.
* @param pfnExtension The extension entry point (callback).
* @param pvExtension The extension pointer.
* @return VBox rc.
*/
int HGCMHostRegisterServiceExtension(HGCMSVCEXTHANDLE *pHandle,
const char *pszServiceName,
PFNHGCMSVCEXT pfnExtension,
void *pvExtension)
{
LogFlowFunc(("pHandle = %p, name = %s, pfn = %p, rv = %p\n", pHandle, pszServiceName, pfnExtension, pvExtension));
if (!pHandle || !pszServiceName || !pfnExtension)
{
return VERR_INVALID_PARAMETER;
}
/* Forward the request to the main hgcm thread. */
HGCMMsgCore *pCoreMsg;
int vrc = hgcmMsgAlloc(g_pHgcmThread, &pCoreMsg, HGCM_MSG_REGEXT, hgcmMainMessageAlloc);
if (RT_SUCCESS(vrc))
{
/* Initialize the message. Since the message is synchronous, use the supplied pointers. */
HGCMMsgMainRegisterExtension *pMsg = (HGCMMsgMainRegisterExtension *)pCoreMsg;
pMsg->pHandle = pHandle;
pMsg->pszServiceName = pszServiceName;
pMsg->pfnExtension = pfnExtension;
pMsg->pvExtension = pvExtension;
vrc = hgcmMsgSend(pMsg);
}
LogFlowFunc(("*pHandle = %p, vrc = %Rrc\n", *pHandle, vrc));
return vrc;
}
void HGCMHostUnregisterServiceExtension(HGCMSVCEXTHANDLE handle)
{
LogFlowFunc(("handle = %p\n", handle));
/* Forward the request to the main hgcm thread. */
HGCMMsgCore *pCoreMsg;
int vrc = hgcmMsgAlloc(g_pHgcmThread, &pCoreMsg, HGCM_MSG_UNREGEXT, hgcmMainMessageAlloc);
if (RT_SUCCESS(vrc))
{
/* Initialize the message. */
HGCMMsgMainUnregisterExtension *pMsg = (HGCMMsgMainUnregisterExtension *)pCoreMsg;
pMsg->handle = handle;
vrc = hgcmMsgSend(pMsg);
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return;
}
/* Find a service and inform it about a client connection, create a client handle.
*
* @param pHGCMPort The port to be used for completion confirmation.
* @param pCmd The VBox HGCM context.
* @param pszServiceName The name of the service to be connected to.
* @param pu32ClientId Where the store the created client handle.
* @return VBox rc.
*/
int HGCMGuestConnect(PPDMIHGCMPORT pHGCMPort,
PVBOXHGCMCMD pCmd,
const char *pszServiceName,
uint32_t *pu32ClientId)
{
LogFlowFunc(("pHGCMPort = %p, pCmd = %p, name = %s, pu32ClientId = %p\n",
pHGCMPort, pCmd, pszServiceName, pu32ClientId));
if (pHGCMPort == NULL || pCmd == NULL || pszServiceName == NULL || pu32ClientId == NULL)
{
return VERR_INVALID_PARAMETER;
}
/* Forward the request to the main hgcm thread. */
HGCMMsgCore *pCoreMsg;
int vrc = hgcmMsgAlloc(g_pHgcmThread, &pCoreMsg, HGCM_MSG_CONNECT, hgcmMainMessageAlloc);
if (RT_SUCCESS(vrc))
{
/* Initialize the message. Since 'pszServiceName' and 'pu32ClientId'
* will not be deallocated by the caller until the message is completed,
* use the supplied pointers.
*/
HGCMMsgMainConnect *pMsg = (HGCMMsgMainConnect *)pCoreMsg;
pMsg->pHGCMPort = pHGCMPort;
pMsg->pCmd = pCmd;
pMsg->pszServiceName = pszServiceName;
pMsg->pu32ClientId = pu32ClientId;
vrc = hgcmMsgPost(pMsg, hgcmMsgCompletionCallback);
}
LogFlowFunc(("rc = %Rrc\n", vrc));
return vrc;
}
/* Tell a service that the client is disconnecting, destroy the client handle.
*
* @param pHGCMPort The port to be used for completion confirmation.
* @param pCmd The VBox HGCM context.
* @param u32ClientId The client handle to be disconnected and deleted.
* @return VBox rc.
*/
int HGCMGuestDisconnect(PPDMIHGCMPORT pHGCMPort,
PVBOXHGCMCMD pCmd,
uint32_t u32ClientId)
{
LogFlowFunc(("pHGCMPort = %p, pCmd = %p, u32ClientId = %d\n",
pHGCMPort, pCmd, u32ClientId));
if (!pHGCMPort || !pCmd || !u32ClientId)
{
return VERR_INVALID_PARAMETER;
}
/* Forward the request to the main hgcm thread. */
HGCMMsgCore *pCoreMsg;
int vrc = hgcmMsgAlloc(g_pHgcmThread, &pCoreMsg, HGCM_MSG_DISCONNECT, hgcmMainMessageAlloc);
if (RT_SUCCESS(vrc))
{
/* Initialize the message. */
HGCMMsgMainDisconnect *pMsg = (HGCMMsgMainDisconnect *)pCoreMsg;
pMsg->pCmd = pCmd;
pMsg->pHGCMPort = pHGCMPort;
pMsg->u32ClientId = u32ClientId;
vrc = hgcmMsgPost(pMsg, hgcmMsgCompletionCallback);
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
/** Helper to send either HGCM_MSG_SAVESTATE or HGCM_MSG_LOADSTATE messages to the main HGCM thread.
*
* @param pSSM The SSM handle.
* @param pVMM The VMM vtable.
* @param idMsg The message to be sent: HGCM_MSG_SAVESTATE or HGCM_MSG_LOADSTATE.
* @param uVersion The state version being loaded.
* @return VBox rc.
*/
static int hgcmHostLoadSaveState(PSSMHANDLE pSSM, PCVMMR3VTABLE pVMM, uint32_t idMsg, uint32_t uVersion)
{
LogFlowFunc(("pSSM = %p, pVMM = %p, idMsg = %d, uVersion = %#x\n", pSSM, pVMM, idMsg, uVersion));
HGCMMsgCore *pCoreMsg;
int vrc = hgcmMsgAlloc(g_pHgcmThread, &pCoreMsg, idMsg, hgcmMainMessageAlloc);
if (RT_SUCCESS(vrc))
{
HGCMMsgMainLoadSaveState *pMsg = (HGCMMsgMainLoadSaveState *)pCoreMsg;
AssertRelease(pMsg);
pMsg->pSSM = pSSM;
pMsg->pVMM = pVMM;
pMsg->uVersion = uVersion;
vrc = hgcmMsgSend(pMsg);
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
/** Save the state of services.
*
* @param pSSM The SSM handle.
* @param pVMM The VMM vtable.
* @return VBox status code.
*/
int HGCMHostSaveState(PSSMHANDLE pSSM, PCVMMR3VTABLE pVMM)
{
return hgcmHostLoadSaveState(pSSM, pVMM, HGCM_MSG_SAVESTATE, HGCM_SAVED_STATE_VERSION);
}
/** Load the state of services.
*
* @param pSSM The SSM handle.
* @param pVMM The VMM vtable.
* @param uVersion The state version being loaded.
* @return VBox status code.
*/
int HGCMHostLoadState(PSSMHANDLE pSSM, PCVMMR3VTABLE pVMM, uint32_t uVersion)
{
return hgcmHostLoadSaveState(pSSM, pVMM, HGCM_MSG_LOADSTATE, uVersion);
}
/** The guest calls the service.
*
* @param pHGCMPort The port to be used for completion confirmation.
* @param pCmd The VBox HGCM context.
* @param u32ClientId The client handle.
* @param u32Function The function number.
* @param cParms Number of parameters.
* @param paParms Pointer to array of parameters.
* @param tsArrival The STAM_GET_TS() value when the request arrived.
* @return VBox rc.
*/
int HGCMGuestCall(PPDMIHGCMPORT pHGCMPort,
PVBOXHGCMCMD pCmd,
uint32_t u32ClientId,
uint32_t u32Function,
uint32_t cParms,
VBOXHGCMSVCPARM *paParms,
uint64_t tsArrival)
{
LogFlowFunc(("pHGCMPort = %p, pCmd = %p, u32ClientId = %d, u32Function = %d, cParms = %d, paParms = %p\n",
pHGCMPort, pCmd, u32ClientId, u32Function, cParms, paParms));
if (!pHGCMPort || !pCmd || u32ClientId == 0)
{
return VERR_INVALID_PARAMETER;
}
int vrc = VERR_HGCM_INVALID_CLIENT_ID;
/* Resolve the client handle to the client instance pointer. */
HGCMClient *pClient = HGCMClient::ReferenceByHandleForGuest(u32ClientId);
if (pClient)
{
AssertRelease(pClient->pService);
/* Forward the message to the service thread. */
vrc = pClient->pService->GuestCall(pHGCMPort, pCmd, u32ClientId, pClient, u32Function, cParms, paParms, tsArrival);
hgcmObjDereference(pClient);
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
/** The guest cancelled a request (call, connect, disconnect)
*
* @param pHGCMPort The port to be used for completion confirmation.
* @param pCmd The VBox HGCM context.
* @param idClient The client handle.
*/
void HGCMGuestCancelled(PPDMIHGCMPORT pHGCMPort, PVBOXHGCMCMD pCmd, uint32_t idClient)
{
LogFlowFunc(("pHGCMPort = %p, pCmd = %p, idClient = %d\n", pHGCMPort, pCmd, idClient));
AssertReturnVoid(pHGCMPort);
AssertReturnVoid(pCmd);
AssertReturnVoid(idClient != 0);
/* Resolve the client handle to the client instance pointer. */
HGCMClient *pClient = HGCMClient::ReferenceByHandleForGuest(idClient);
if (pClient)
{
AssertRelease(pClient->pService);
/* Forward the message to the service thread. */
pClient->pService->GuestCancelled(pHGCMPort, pCmd, idClient);
hgcmObjDereference(pClient);
}
LogFlowFunc(("returns\n"));
}
/** The host calls the service.
*
* @param pszServiceName The service name to be called.
* @param u32Function The function number.
* @param cParms Number of parameters.
* @param paParms Pointer to array of parameters.
* @return VBox rc.
*/
int HGCMHostCall(const char *pszServiceName,
uint32_t u32Function,
uint32_t cParms,
VBOXHGCMSVCPARM *paParms)
{
LogFlowFunc(("name = %s, u32Function = %d, cParms = %d, paParms = %p\n",
pszServiceName, u32Function, cParms, paParms));
if (!pszServiceName)
{
return VERR_INVALID_PARAMETER;
}
/* Host calls go to main HGCM thread that resolves the service name to the
* service instance pointer and then, using the service pointer, forwards
* the message to the service thread.
* So it is slow but host calls are intended mostly for configuration and
* other non-time-critical functions.
*/
HGCMMsgCore *pCoreMsg;
int vrc = hgcmMsgAlloc(g_pHgcmThread, &pCoreMsg, HGCM_MSG_HOSTCALL, hgcmMainMessageAlloc);
if (RT_SUCCESS(vrc))
{
HGCMMsgMainHostCall *pMsg = (HGCMMsgMainHostCall *)pCoreMsg;
pMsg->pszServiceName = (char *)pszServiceName;
pMsg->u32Function = u32Function;
pMsg->cParms = cParms;
pMsg->paParms = paParms;
vrc = hgcmMsgSend(pMsg);
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
/** Posts a notification event to all services.
*
* @param enmEvent The notification event.
* @return VBox rc.
*/
int HGCMBroadcastEvent(HGCMNOTIFYEVENT enmEvent)
{
LogFlowFunc(("enmEvent=%d\n", enmEvent));
HGCMMsgCore *pCoreMsg;
int vrc = hgcmMsgAlloc(g_pHgcmThread, &pCoreMsg, HGCM_MSG_BRD_NOTIFY, hgcmMainMessageAlloc);
if (RT_SUCCESS(vrc))
{
HGCMMsgMainBroadcastNotify *pMsg = (HGCMMsgMainBroadcastNotify *)pCoreMsg;
pMsg->enmEvent = enmEvent;
vrc = hgcmMsgPost(pMsg, NULL);
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
int HGCMHostReset(bool fForShutdown)
{
LogFlowFunc(("\n"));
/* Disconnect all clients.
*/
HGCMMsgCore *pMsgCore;
int vrc = hgcmMsgAlloc(g_pHgcmThread, &pMsgCore, HGCM_MSG_RESET, hgcmMainMessageAlloc);
if (RT_SUCCESS(vrc))
{
HGCMMsgMainReset *pMsg = (HGCMMsgMainReset *)pMsgCore;
pMsg->fForShutdown = fForShutdown;
vrc = hgcmMsgSend(pMsg);
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
int HGCMHostInit(void)
{
LogFlowFunc(("\n"));
int vrc = hgcmThreadInit();
if (RT_SUCCESS(vrc))
{
/*
* Start main HGCM thread.
*/
vrc = hgcmThreadCreate(&g_pHgcmThread, "MainHGCMthread", hgcmThread, NULL /*pvUser*/,
NULL /*pszStatsSubDir*/, NULL /*pUVM*/, NULL /*pVMM*/);
if (RT_FAILURE(vrc))
LogRel(("Failed to start HGCM thread. HGCM services will be unavailable!!! vrc = %Rrc\n", vrc));
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
int HGCMHostShutdown(bool fUvmIsInvalid /*= false*/)
{
LogFlowFunc(("\n"));
/*
* Do HGCMReset and then unload all services.
*/
int vrc = HGCMHostReset(true /*fForShutdown*/);
if (RT_SUCCESS(vrc))
{
/* Send the quit message to the main hgcmThread. */
HGCMMsgCore *pMsgCore;
vrc = hgcmMsgAlloc(g_pHgcmThread, &pMsgCore, HGCM_MSG_QUIT, hgcmMainMessageAlloc);
if (RT_SUCCESS(vrc))
{
HGCMMsgMainQuit *pMsg = (HGCMMsgMainQuit *)pMsgCore;
pMsg->fUvmIsInvalid = fUvmIsInvalid;
vrc = hgcmMsgSend(pMsg);
if (RT_SUCCESS(vrc))
{
/* Wait for the thread termination. */
hgcmThreadWait(g_pHgcmThread);
g_pHgcmThread = NULL;
hgcmThreadUninit();
}
}
}
LogFlowFunc(("vrc = %Rrc\n", vrc));
return vrc;
}
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