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/* $Id: IntNetIf.cpp $ */
/** @file
* IntNetIfCtx - Abstract API implementing an IntNet connection using the R0 support driver or some R3 IPC variant.
*/
/*
* Copyright (C) 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
*/
/*********************************************************************************************************************************
* Header Files *
*********************************************************************************************************************************/
#if defined(VBOX_WITH_INTNET_SERVICE_IN_R3)
# if defined(RT_OS_DARWIN)
# include <xpc/xpc.h> /* This needs to be here because it drags PVM in and cdefs.h needs to undefine it... */
# else
# error "R3 internal networking not implemented for this platform yet!"
# endif
#endif
#include <iprt/cdefs.h>
#include <iprt/path.h>
#include <iprt/semaphore.h>
#include <VBox/err.h>
#include <VBox/sup.h>
#include <VBox/intnetinline.h>
#include <VBox/vmm/pdmnetinline.h>
#include "IntNetIf.h"
/*********************************************************************************************************************************
* Defined Constants And Macros *
*********************************************************************************************************************************/
/*********************************************************************************************************************************
* Structures and Typedefs *
*********************************************************************************************************************************/
/**
* Internal network interface context instance data.
*/
typedef struct INTNETIFCTXINT
{
/** The support driver session handle. */
PSUPDRVSESSION pSupDrvSession;
/** Interface handle. */
INTNETIFHANDLE hIf;
/** The internal network buffer. */
PINTNETBUF pBuf;
#if defined (VBOX_WITH_INTNET_SERVICE_IN_R3)
/** Flag whether this interface is using the internal network switch in userspace path. */
bool fIntNetR3Svc;
/** Receive event semaphore. */
RTSEMEVENT hEvtRecv;
# if defined(RT_OS_DARWIN)
/** XPC connection handle to the R3 internal network switch service. */
xpc_connection_t hXpcCon;
/** Size of the communication buffer in bytes. */
size_t cbBuf;
# endif
#endif
} INTNETIFCTXINT;
/** Pointer to the internal network interface context instance data. */
typedef INTNETIFCTXINT *PINTNETIFCTXINT;
/*********************************************************************************************************************************
* Internal Functions *
*********************************************************************************************************************************/
/**
* Calls the internal networking switch service living in either R0 or in another R3 process.
*
* @returns VBox status code.
* @param pThis The internal network driver instance data.
* @param uOperation The operation to execute.
* @param pReqHdr Pointer to the request header.
*/
static int intnetR3IfCallSvc(PINTNETIFCTXINT pThis, uint32_t uOperation, PSUPVMMR0REQHDR pReqHdr)
{
#if defined(VBOX_WITH_INTNET_SERVICE_IN_R3)
if (pThis->fIntNetR3Svc)
{
# if defined(RT_OS_DARWIN)
size_t cbReq = pReqHdr->cbReq;
xpc_object_t hObj = xpc_dictionary_create(NULL, NULL, 0);
xpc_dictionary_set_uint64(hObj, "req-id", uOperation);
xpc_dictionary_set_data(hObj, "req", pReqHdr, pReqHdr->cbReq);
xpc_object_t hObjReply = xpc_connection_send_message_with_reply_sync(pThis->hXpcCon, hObj);
int rc = (int)xpc_dictionary_get_int64(hObjReply, "rc");
size_t cbReply = 0;
const void *pvData = xpc_dictionary_get_data(hObjReply, "reply", &cbReply);
AssertRelease(cbReply == cbReq);
memcpy(pReqHdr, pvData, cbReq);
xpc_release(hObjReply);
return rc;
# endif
}
else
#else
RT_NOREF(pThis);
#endif
return SUPR3CallVMMR0Ex(NIL_RTR0PTR, NIL_VMCPUID, uOperation, 0, pReqHdr);
}
#if defined(RT_OS_DARWIN) && defined(VBOX_WITH_INTNET_SERVICE_IN_R3)
/**
* Calls the internal networking switch service living in either R0 or in another R3 process.
*
* @returns VBox status code.
* @param pThis The internal network driver instance data.
* @param uOperation The operation to execute.
* @param pReqHdr Pointer to the request header.
*/
static int intnetR3IfCallSvcAsync(PINTNETIFCTXINT pThis, uint32_t uOperation, PSUPVMMR0REQHDR pReqHdr)
{
if (pThis->fIntNetR3Svc)
{
xpc_object_t hObj = xpc_dictionary_create(NULL, NULL, 0);
xpc_dictionary_set_uint64(hObj, "req-id", uOperation);
xpc_dictionary_set_data(hObj, "req", pReqHdr, pReqHdr->cbReq);
xpc_connection_send_message(pThis->hXpcCon, hObj);
return VINF_SUCCESS;
}
else
return SUPR3CallVMMR0Ex(NIL_RTR0PTR, NIL_VMCPUID, uOperation, 0, pReqHdr);
}
#endif
/**
* Map the ring buffer pointer into this process R3 address space.
*
* @returns VBox status code.
* @param pThis The internal network driver instance data.
*/
static int intnetR3IfMapBufferPointers(PINTNETIFCTXINT pThis)
{
int rc = VINF_SUCCESS;
INTNETIFGETBUFFERPTRSREQ GetBufferPtrsReq;
GetBufferPtrsReq.Hdr.u32Magic = SUPVMMR0REQHDR_MAGIC;
GetBufferPtrsReq.Hdr.cbReq = sizeof(GetBufferPtrsReq);
GetBufferPtrsReq.pSession = pThis->pSupDrvSession;
GetBufferPtrsReq.hIf = pThis->hIf;
GetBufferPtrsReq.pRing3Buf = NULL;
GetBufferPtrsReq.pRing0Buf = NIL_RTR0PTR;
#if defined(VBOX_WITH_INTNET_SERVICE_IN_R3)
if (pThis->fIntNetR3Svc)
{
#if defined(RT_OS_DARWIN)
xpc_object_t hObj = xpc_dictionary_create(NULL, NULL, 0);
xpc_dictionary_set_uint64(hObj, "req-id", VMMR0_DO_INTNET_IF_GET_BUFFER_PTRS);
xpc_dictionary_set_data(hObj, "req", &GetBufferPtrsReq, sizeof(GetBufferPtrsReq));
xpc_object_t hObjReply = xpc_connection_send_message_with_reply_sync(pThis->hXpcCon, hObj);
rc = (int)xpc_dictionary_get_int64(hObjReply, "rc");
if (RT_SUCCESS(rc))
{
/* Get the shared memory object. */
xpc_object_t hObjShMem = xpc_dictionary_get_value(hObjReply, "buf-ptr");
size_t cbMem = xpc_shmem_map(hObjShMem, (void **)&pThis->pBuf);
if (!cbMem)
rc = VERR_NO_MEMORY;
else
pThis->cbBuf = cbMem;
}
xpc_release(hObjReply);
#endif
}
else
#endif
{
rc = SUPR3CallVMMR0Ex(NIL_RTR0PTR, NIL_VMCPUID, VMMR0_DO_INTNET_IF_GET_BUFFER_PTRS, 0 /*u64Arg*/, &GetBufferPtrsReq.Hdr);
if (RT_SUCCESS(rc))
{
AssertRelease(RT_VALID_PTR(GetBufferPtrsReq.pRing3Buf));
pThis->pBuf = GetBufferPtrsReq.pRing3Buf;
}
}
return rc;
}
static void intnetR3IfClose(PINTNETIFCTXINT pThis)
{
if (pThis->hIf != INTNET_HANDLE_INVALID)
{
INTNETIFCLOSEREQ CloseReq;
CloseReq.Hdr.u32Magic = SUPVMMR0REQHDR_MAGIC;
CloseReq.Hdr.cbReq = sizeof(CloseReq);
CloseReq.pSession = pThis->pSupDrvSession;
CloseReq.hIf = pThis->hIf;
pThis->hIf = INTNET_HANDLE_INVALID;
int rc = intnetR3IfCallSvc(pThis, VMMR0_DO_INTNET_IF_CLOSE, &CloseReq.Hdr);
AssertRC(rc);
}
}
DECLHIDDEN(int) IntNetR3IfCreate(PINTNETIFCTX phIfCtx, const char *pszNetwork)
{
return IntNetR3IfCreateEx(phIfCtx, pszNetwork, kIntNetTrunkType_WhateverNone, "",
_128K /*cbSend*/, _256K /*cbRecv*/, 0 /*fFlags*/);
}
DECLHIDDEN(int) IntNetR3IfCreateEx(PINTNETIFCTX phIfCtx, const char *pszNetwork, INTNETTRUNKTYPE enmTrunkType,
const char *pszTrunk, uint32_t cbSend, uint32_t cbRecv, uint32_t fFlags)
{
AssertPtrReturn(phIfCtx, VERR_INVALID_POINTER);
AssertPtrReturn(pszNetwork, VERR_INVALID_POINTER);
AssertPtrReturn(pszTrunk, VERR_INVALID_POINTER);
PSUPDRVSESSION pSession = NIL_RTR0PTR;
int rc = SUPR3Init(&pSession);
if (RT_SUCCESS(rc))
{
PINTNETIFCTXINT pThis = (PINTNETIFCTXINT)RTMemAllocZ(sizeof(*pThis));
if (RT_LIKELY(pThis))
{
pThis->pSupDrvSession = pSession;
#if defined(VBOX_WITH_INTNET_SERVICE_IN_R3)
pThis->hEvtRecv = NIL_RTSEMEVENT;
#endif
/* Driverless operation needs support for running the internal network switch using IPC. */
if (SUPR3IsDriverless())
{
#if defined(VBOX_WITH_INTNET_SERVICE_IN_R3)
# if defined(RT_OS_DARWIN)
xpc_connection_t hXpcCon = xpc_connection_create(INTNET_R3_SVC_NAME, NULL);
xpc_connection_set_event_handler(hXpcCon, ^(xpc_object_t hObj) {
if (xpc_get_type(hObj) == XPC_TYPE_ERROR)
{
/** @todo Error handling - reconnecting. */
}
else
{
/* Out of band messages should only come when there is something to receive. */
RTSemEventSignal(pThis->hEvtRecv);
}
});
xpc_connection_resume(hXpcCon);
pThis->hXpcCon = hXpcCon;
# endif
pThis->fIntNetR3Svc = true;
rc = RTSemEventCreate(&pThis->hEvtRecv);
#else
rc = VERR_SUP_DRIVERLESS;
#endif
}
else
{
/* Need to load VMMR0.r0 containing the network switching code. */
char szPathVMMR0[RTPATH_MAX];
rc = RTPathExecDir(szPathVMMR0, sizeof(szPathVMMR0));
if (RT_SUCCESS(rc))
{
rc = RTPathAppend(szPathVMMR0, sizeof(szPathVMMR0), "VMMR0.r0");
if (RT_SUCCESS(rc))
rc = SUPR3LoadVMM(szPathVMMR0, /* :pErrInfo */ NULL);
}
}
if (RT_SUCCESS(rc))
{
/* Open the interface. */
INTNETOPENREQ OpenReq;
RT_ZERO(OpenReq);
OpenReq.Hdr.u32Magic = SUPVMMR0REQHDR_MAGIC;
OpenReq.Hdr.cbReq = sizeof(OpenReq);
OpenReq.pSession = pThis->pSupDrvSession;
OpenReq.enmTrunkType = enmTrunkType;
OpenReq.fFlags = fFlags;
OpenReq.cbSend = cbSend;
OpenReq.cbRecv = cbRecv;
OpenReq.hIf = INTNET_HANDLE_INVALID;
rc = RTStrCopy(OpenReq.szNetwork, sizeof(OpenReq.szNetwork), pszNetwork);
if (RT_SUCCESS(rc))
rc = RTStrCopy(OpenReq.szTrunk, sizeof(OpenReq.szTrunk), pszTrunk);
if (RT_SUCCESS(rc))
{
rc = intnetR3IfCallSvc(pThis, VMMR0_DO_INTNET_OPEN, &OpenReq.Hdr);
if (RT_SUCCESS(rc))
{
pThis->hIf = OpenReq.hIf;
rc = intnetR3IfMapBufferPointers(pThis);
if (RT_SUCCESS(rc))
{
*phIfCtx = pThis;
return VINF_SUCCESS;
}
}
intnetR3IfClose(pThis);
}
}
#if defined(VBOX_WITH_INTNET_SERVICE_IN_R3)
if (pThis->fIntNetR3Svc)
{
# if defined(RT_OS_DARWIN)
if (pThis->hXpcCon)
xpc_connection_cancel(pThis->hXpcCon);
pThis->hXpcCon = NULL;
# endif
if (pThis->hEvtRecv != NIL_RTSEMEVENT)
RTSemEventDestroy(pThis->hEvtRecv);
}
#endif
RTMemFree(pThis);
}
SUPR3Term();
}
return rc;
}
DECLHIDDEN(int) IntNetR3IfDestroy(INTNETIFCTX hIfCtx)
{
PINTNETIFCTXINT pThis = hIfCtx;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
intnetR3IfClose(pThis);
#if defined(VBOX_WITH_INTNET_SERVICE_IN_R3)
if (pThis->fIntNetR3Svc)
{
# if defined(RT_OS_DARWIN)
/* Unmap the shared buffer. */
munmap(pThis->pBuf, pThis->cbBuf);
xpc_connection_cancel(pThis->hXpcCon);
pThis->hXpcCon = NULL;
# endif
RTSemEventDestroy(pThis->hEvtRecv);
pThis->fIntNetR3Svc = false;
}
#endif
RTMemFree(pThis);
return VINF_SUCCESS;
}
DECLHIDDEN(int) IntNetR3IfQueryBufferPtr(INTNETIFCTX hIfCtx, PINTNETBUF *ppIfBuf)
{
PINTNETIFCTXINT pThis = hIfCtx;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertPtrReturn(ppIfBuf, VERR_INVALID_POINTER);
*ppIfBuf = pThis->pBuf;
return VINF_SUCCESS;
}
DECLHIDDEN(int) IntNetR3IfSetActive(INTNETIFCTX hIfCtx, bool fActive)
{
PINTNETIFCTXINT pThis = hIfCtx;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
INTNETIFSETACTIVEREQ Req;
Req.Hdr.u32Magic = SUPVMMR0REQHDR_MAGIC;
Req.Hdr.cbReq = sizeof(Req);
Req.pSession = pThis->pSupDrvSession;
Req.hIf = pThis->hIf;
Req.fActive = fActive;
return intnetR3IfCallSvc(pThis, VMMR0_DO_INTNET_IF_SET_ACTIVE, &Req.Hdr);
}
DECLHIDDEN(int) IntNetR3IfSetPromiscuous(INTNETIFCTX hIfCtx, bool fPromiscuous)
{
PINTNETIFCTXINT pThis = hIfCtx;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
INTNETIFSETPROMISCUOUSMODEREQ Req;
Req.Hdr.u32Magic = SUPVMMR0REQHDR_MAGIC;
Req.Hdr.cbReq = sizeof(Req);
Req.pSession = pThis->pSupDrvSession;
Req.hIf = pThis->hIf;
Req.fPromiscuous = fPromiscuous;
return intnetR3IfCallSvc(pThis, VMMR0_DO_INTNET_IF_SET_PROMISCUOUS_MODE, &Req.Hdr);
}
DECLHIDDEN(int) IntNetR3IfSend(INTNETIFCTX hIfCtx)
{
PINTNETIFCTXINT pThis = hIfCtx;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
INTNETIFSENDREQ Req;
Req.Hdr.u32Magic = SUPVMMR0REQHDR_MAGIC;
Req.Hdr.cbReq = sizeof(Req);
Req.pSession = pThis->pSupDrvSession;
Req.hIf = pThis->hIf;
return intnetR3IfCallSvc(pThis, VMMR0_DO_INTNET_IF_SEND, &Req.Hdr);
}
DECLHIDDEN(int) IntNetR3IfWait(INTNETIFCTX hIfCtx, uint32_t cMillies)
{
PINTNETIFCTXINT pThis = hIfCtx;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
int rc = VINF_SUCCESS;
INTNETIFWAITREQ WaitReq;
WaitReq.Hdr.u32Magic = SUPVMMR0REQHDR_MAGIC;
WaitReq.Hdr.cbReq = sizeof(WaitReq);
WaitReq.pSession = pThis->pSupDrvSession;
WaitReq.hIf = pThis->hIf;
WaitReq.cMillies = cMillies;
#if defined(VBOX_WITH_INTNET_SERVICE_IN_R3)
if (pThis->fIntNetR3Svc)
{
/* Send an asynchronous message. */
rc = intnetR3IfCallSvcAsync(pThis, VMMR0_DO_INTNET_IF_WAIT, &WaitReq.Hdr);
if (RT_SUCCESS(rc))
{
/* Wait on the receive semaphore. */
rc = RTSemEventWait(pThis->hEvtRecv, cMillies);
}
}
else
#endif
rc = intnetR3IfCallSvc(pThis, VMMR0_DO_INTNET_IF_WAIT, &WaitReq.Hdr);
return rc;
}
DECLHIDDEN(int) IntNetR3IfWaitAbort(INTNETIFCTX hIfCtx)
{
PINTNETIFCTXINT pThis = hIfCtx;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
INTNETIFABORTWAITREQ AbortWaitReq;
AbortWaitReq.Hdr.u32Magic = SUPVMMR0REQHDR_MAGIC;
AbortWaitReq.Hdr.cbReq = sizeof(AbortWaitReq);
AbortWaitReq.pSession = pThis->pSupDrvSession;
AbortWaitReq.hIf = pThis->hIf;
AbortWaitReq.fNoMoreWaits = true;
return intnetR3IfCallSvc(pThis, VMMR0_DO_INTNET_IF_ABORT_WAIT, &AbortWaitReq.Hdr);
}
DECLHIDDEN(int) IntNetR3IfPumpPkts(INTNETIFCTX hIfCtx, PFNINPUT pfnInput, void *pvUser,
PFNINPUTGSO pfnInputGso, void *pvUserGso)
{
PINTNETIFCTXINT pThis = hIfCtx;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertPtrReturn(pfnInput, VERR_INVALID_POINTER);
int rc;
for (;;)
{
rc = IntNetR3IfWait(hIfCtx, RT_INDEFINITE_WAIT);
if (RT_SUCCESS(rc) || rc == VERR_INTERRUPTED || rc == VERR_TIMEOUT)
{
PCINTNETHDR pHdr = IntNetRingGetNextFrameToRead(&pThis->pBuf->Recv);
while (pHdr)
{
const uint8_t u8Type = pHdr->u8Type;
void *pvSegFrame;
uint32_t cbSegFrame;
if (u8Type == INTNETHDR_TYPE_FRAME)
{
pvSegFrame = IntNetHdrGetFramePtr(pHdr, pThis->pBuf);
cbSegFrame = pHdr->cbFrame;
/* pass the frame to the user callback */
pfnInput(pvUser, pvSegFrame, cbSegFrame);
}
else if (u8Type == INTNETHDR_TYPE_GSO)
{
size_t cbGso = pHdr->cbFrame;
size_t cbFrame = cbGso - sizeof(PDMNETWORKGSO);
PCPDMNETWORKGSO pcGso = IntNetHdrGetGsoContext(pHdr, pThis->pBuf);
if (PDMNetGsoIsValid(pcGso, cbGso, cbFrame))
{
if (pfnInputGso != NULL)
{
/* pass the frame to the user GSO input callback if set */
pfnInputGso(pvUserGso, pcGso, (uint32_t)cbFrame);
}
else
{
const uint32_t cSegs = PDMNetGsoCalcSegmentCount(pcGso, cbFrame);
for (uint32_t i = 0; i < cSegs; ++i)
{
uint8_t abHdrScratch[256];
pvSegFrame = PDMNetGsoCarveSegmentQD(pcGso, (uint8_t *)(pcGso + 1), cbFrame,
abHdrScratch,
i, cSegs,
&cbSegFrame);
/* pass carved frames to the user input callback */
pfnInput(pvUser, pvSegFrame, (uint32_t)cbSegFrame);
}
}
}
}
/* advance to the next input frame */
IntNetRingSkipFrame(&pThis->pBuf->Recv);
pHdr = IntNetRingGetNextFrameToRead(&pThis->pBuf->Recv);
}
}
else
break;
}
return rc;
}
DECLHIDDEN(int) IntNetR3IfQueryOutputFrame(INTNETIFCTX hIfCtx, uint32_t cbFrame, PINTNETFRAME pFrame)
{
PINTNETIFCTXINT pThis = hIfCtx;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
return IntNetRingAllocateFrame(&pThis->pBuf->Send, cbFrame, &pFrame->pHdr, &pFrame->pvFrame);
}
DECLHIDDEN(int) IntNetR3IfOutputFrameCommit(INTNETIFCTX hIfCtx, PCINTNETFRAME pFrame)
{
PINTNETIFCTXINT pThis = hIfCtx;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
IntNetRingCommitFrame(&pThis->pBuf->Send, pFrame->pHdr);
return IntNetR3IfSend(hIfCtx);
}
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