/* $Id: VBoxNetAdp-win.cpp 93304 2022-01-18 11:29:03Z vboxsync $ */ /** @file * VBoxNetAdp-win.cpp - NDIS6 Host-only Networking Driver, Windows-specific code. */ /* * Copyright (C) 2014-2022 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the * VirtualBox OSE distribution, in which case the provisions of the * CDDL are applicable instead of those of the GPL. * * You may elect to license modified versions of this file under the * terms and conditions of either the GPL or the CDDL or both. */ #define LOG_GROUP LOG_GROUP_NET_ADP_DRV #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "VBoxNetAdp-win.h" #include "VBox/VBoxNetCmn-win.h" #define VBOXNETADP_MEM_TAG 'OHBV' /* * By default the link speed reported to be 1Gbps. We may wish to lower * it to 100Mbps to work around issues with multi-cast traffic on the host. * See @bugref{6379}. */ #define VBOXNETADPWIN_LINK_SPEED 1000000000ULL #define LogError LogRel /* Forward declarations */ MINIPORT_INITIALIZE vboxNetAdpWinInitializeEx; MINIPORT_HALT vboxNetAdpWinHaltEx; MINIPORT_UNLOAD vboxNetAdpWinUnload; MINIPORT_PAUSE vboxNetAdpWinPause; MINIPORT_RESTART vboxNetAdpWinRestart; MINIPORT_OID_REQUEST vboxNetAdpWinOidRequest; MINIPORT_SEND_NET_BUFFER_LISTS vboxNetAdpWinSendNetBufferLists; MINIPORT_RETURN_NET_BUFFER_LISTS vboxNetAdpWinReturnNetBufferLists; MINIPORT_CANCEL_SEND vboxNetAdpWinCancelSend; MINIPORT_CHECK_FOR_HANG vboxNetAdpWinCheckForHangEx; MINIPORT_RESET vboxNetAdpWinResetEx; MINIPORT_DEVICE_PNP_EVENT_NOTIFY vboxNetAdpWinDevicePnPEventNotify; MINIPORT_SHUTDOWN vboxNetAdpWinShutdownEx; MINIPORT_CANCEL_OID_REQUEST vboxNetAdpWinCancelOidRequest; /* Packet types by destination address; used in statistics. */ typedef enum { kVBoxNetAdpWinPacketType_Unicast, kVBoxNetAdpWinPacketType_Multicast, kVBoxNetAdpWinPacketType_Broadcast, kVBoxNetAdpWinPacketType_ArraySize /* Must be the last one */ } VBOXNETADPWIN_PACKET_TYPE; /* Miniport states as defined by NDIS. */ typedef enum { kVBoxNetAdpWinState_Initializing, kVBoxNetAdpWinState_Paused, kVBoxNetAdpWinState_Restarting, kVBoxNetAdpWinState_Running, kVBoxNetAdpWinState_Pausing, kVBoxNetAdpWinState_32BitHack = 0x7fffffff } VBOXNETADPWIN_ADAPTER_STATE; /* * Valid state transitions are: * 1) Disconnected -> Connecting : start the worker thread, attempting to init IDC; * 2) Connecting -> Disconnected : failed to start IDC init worker thread; * 3) Connecting -> Connected : IDC init successful, terminate the worker; * 4) Connecting -> Stopping : IDC init incomplete, but the driver is being unloaded, terminate the worker; * 5) Connected -> Stopping : IDC init was successful, no worker, the driver is being unloaded; * * Driver terminates in either in Disconnected or in Stopping state. */ typedef enum { kVBoxNetAdpWinIdcState_Disconnected = 0, /* Initial state */ kVBoxNetAdpWinIdcState_Connecting, /* Attemping to init IDC, worker thread running */ kVBoxNetAdpWinIdcState_Connected, /* Successfully connected to IDC, worker thread terminated */ kVBoxNetAdpWinIdcState_Stopping /* Terminating the worker thread and disconnecting IDC */ } VBOXNETADPWIN_IDC_STATE; typedef struct _VBOXNETADPGLOBALS { /** Miniport driver handle. */ NDIS_HANDLE hMiniportDriver; /** Power management capabilities, shared by all instances, do not change after init. */ NDIS_PNP_CAPABILITIES PMCaps; /** The INTNET trunk network interface factory. */ INTNETTRUNKFACTORY TrunkFactory; /** The SUPDRV component factory registration. */ SUPDRVFACTORY SupDrvFactory; /** The SUPDRV IDC handle (opaque struct). */ SUPDRVIDCHANDLE SupDrvIDC; /** IDC init thread handle. */ HANDLE hInitIdcThread; /** Lock protecting the following members. */ NDIS_SPIN_LOCK Lock; /** Lock-protected: the head of module list. */ RTLISTANCHOR ListOfAdapters; /** Lock-protected: The number of current factory references. */ int32_t volatile cFactoryRefs; /** Lock-protected: IDC initialization state. */ volatile uint32_t enmIdcState; /** Lock-protected: event signaled when trunk factory is not in use. */ NDIS_EVENT EventUnloadAllowed; } VBOXNETADPGLOBALS, *PVBOXNETADPGLOBALS; /* win-specific global data */ VBOXNETADPGLOBALS g_VBoxNetAdpGlobals; typedef struct _VBOXNETADP_ADAPTER { /** Auxiliary member to link adapters into a list. */ RTLISTNODE node; /** Adapter handle for NDIS. */ NDIS_HANDLE hAdapter; /** Memory pool network buffers are allocated from. */ NDIS_HANDLE hPool; /** Our RJ-45 port. * This is what the internal network plugs into. */ INTNETTRUNKIFPORT MyPort; /** The RJ-45 port on the INTNET "switch". * This is what we're connected to. */ PINTNETTRUNKSWPORT pSwitchPort; /** Pointer to global data */ PVBOXNETADPGLOBALS pGlobals; /** Adapter state in NDIS, used for assertions only */ VBOXNETADPWIN_ADAPTER_STATE volatile enmAdapterState; /// @todo do we need it really? /** The trunk state. */ INTNETTRUNKIFSTATE volatile enmTrunkState; /** Number of pending operations, when it reaches zero we signal EventIdle. */ int32_t volatile cBusy; /** The event that is signaled when we go idle and that pfnWaitForIdle blocks on. */ NDIS_EVENT EventIdle; /** MAC address of adapter. */ RTMAC MacAddr; /** Statistics: bytes received from internal network. */ uint64_t au64StatsInOctets[kVBoxNetAdpWinPacketType_ArraySize]; /** Statistics: packets received from internal network. */ uint64_t au64StatsInPackets[kVBoxNetAdpWinPacketType_ArraySize]; /** Statistics: bytes sent to internal network. */ uint64_t au64StatsOutOctets[kVBoxNetAdpWinPacketType_ArraySize]; /** Statistics: packets sent to internal network. */ uint64_t au64StatsOutPackets[kVBoxNetAdpWinPacketType_ArraySize]; /** Adapter friendly name. */ char szName[1]; } VBOXNETADP_ADAPTER; typedef VBOXNETADP_ADAPTER *PVBOXNETADP_ADAPTER; /* Port */ #define IFPORT_2_VBOXNETADP_ADAPTER(pIfPort) \ ( (PVBOXNETADP_ADAPTER)((uint8_t *)(pIfPort) - RT_UOFFSETOF(VBOXNETADP_ADAPTER, MyPort)) ) DECLINLINE(VBOXNETADPWIN_ADAPTER_STATE) vboxNetAdpWinGetState(PVBOXNETADP_ADAPTER pThis) { return (VBOXNETADPWIN_ADAPTER_STATE)ASMAtomicUoReadU32((uint32_t volatile *)&pThis->enmAdapterState); } DECLINLINE(VBOXNETADPWIN_ADAPTER_STATE) vboxNetAdpWinSetState(PVBOXNETADP_ADAPTER pThis, VBOXNETADPWIN_ADAPTER_STATE enmNewState) { return (VBOXNETADPWIN_ADAPTER_STATE)ASMAtomicXchgU32((uint32_t volatile *)&pThis->enmAdapterState, enmNewState); } DECLINLINE(bool) vboxNetAdpWinSetState(PVBOXNETADP_ADAPTER pThis, VBOXNETADPWIN_ADAPTER_STATE enmNewState, VBOXNETADPWIN_ADAPTER_STATE enmOldState) { return ASMAtomicCmpXchgU32((uint32_t volatile *)&pThis->enmAdapterState, enmNewState, enmOldState); } #ifdef DEBUG DECLHIDDEN(void) vboxNetAdpWinDumpPackets(const char *pszMsg, PNET_BUFFER_LIST pBufLists) { for (PNET_BUFFER_LIST pList = pBufLists; pList; pList = NET_BUFFER_LIST_NEXT_NBL(pList)) { for (PNET_BUFFER pBuf = NET_BUFFER_LIST_FIRST_NB(pList); pBuf; pBuf = NET_BUFFER_NEXT_NB(pBuf)) { Log6(("%s packet: cb=%d offset=%d", pszMsg, NET_BUFFER_DATA_LENGTH(pBuf), NET_BUFFER_DATA_OFFSET(pBuf))); for (PMDL pMdl = NET_BUFFER_FIRST_MDL(pBuf); pMdl != NULL; pMdl = NDIS_MDL_LINKAGE(pMdl)) { Log6((" MDL: cb=%d", MmGetMdlByteCount(pMdl))); } Log6(("\n")); } } } DECLINLINE(const char *) vboxNetAdpWinEthTypeStr(uint16_t uType) { switch (uType) { case RTNET_ETHERTYPE_IPV4: return "IP"; case RTNET_ETHERTYPE_IPV6: return "IPv6"; case RTNET_ETHERTYPE_ARP: return "ARP"; } return "unknown"; } #define VBOXNETADP_PKTDMPSIZE 0x50 /** * Dump a packet to debug log. * * @param cpPacket The packet. * @param cb The size of the packet. * @param cszText A string denoting direction of packet transfer. */ DECLINLINE(void) vboxNetAdpWinDumpPacket(PCINTNETSG pSG, const char *cszText) { uint8_t bPacket[VBOXNETADP_PKTDMPSIZE]; uint32_t cb = pSG->cbTotal < VBOXNETADP_PKTDMPSIZE ? pSG->cbTotal : VBOXNETADP_PKTDMPSIZE; IntNetSgReadEx(pSG, 0, cb, bPacket); AssertReturnVoid(cb >= 14); uint8_t *pHdr = bPacket; uint8_t *pEnd = bPacket + cb; AssertReturnVoid(pEnd - pHdr >= 14); uint16_t uEthType = RT_N2H_U16(*(uint16_t*)(pHdr+12)); Log2(("NetADP: %s (%d bytes), %RTmac => %RTmac, EthType=%s(0x%x)\n", cszText, pSG->cbTotal, pHdr+6, pHdr, vboxNetAdpWinEthTypeStr(uEthType), uEthType)); pHdr += sizeof(RTNETETHERHDR); if (uEthType == RTNET_ETHERTYPE_VLAN) { AssertReturnVoid(pEnd - pHdr >= 4); uEthType = RT_N2H_U16(*(uint16_t*)(pHdr+2)); Log2((" + VLAN: id=%d EthType=%s(0x%x)\n", RT_N2H_U16(*(uint16_t*)(pHdr)) & 0xFFF, vboxNetAdpWinEthTypeStr(uEthType), uEthType)); pHdr += 2 * sizeof(uint16_t); } uint8_t uProto = 0xFF; switch (uEthType) { case RTNET_ETHERTYPE_IPV6: AssertReturnVoid(pEnd - pHdr >= 40); uProto = pHdr[6]; Log2((" + IPv6: %RTnaipv6 => %RTnaipv6\n", pHdr+8, pHdr+24)); pHdr += 40; break; case RTNET_ETHERTYPE_IPV4: AssertReturnVoid(pEnd - pHdr >= 20); uProto = pHdr[9]; Log2((" + IP: %RTnaipv4 => %RTnaipv4\n", *(uint32_t*)(pHdr+12), *(uint32_t*)(pHdr+16))); pHdr += (pHdr[0] & 0xF) * 4; break; case RTNET_ETHERTYPE_ARP: AssertReturnVoid(pEnd - pHdr >= 28); AssertReturnVoid(RT_N2H_U16(*(uint16_t*)(pHdr+2)) == RTNET_ETHERTYPE_IPV4); switch (RT_N2H_U16(*(uint16_t*)(pHdr+6))) { case 1: /* ARP request */ Log2((" + ARP-REQ: who-has %RTnaipv4 tell %RTnaipv4\n", *(uint32_t*)(pHdr+24), *(uint32_t*)(pHdr+14))); break; case 2: /* ARP reply */ Log2((" + ARP-RPL: %RTnaipv4 is-at %RTmac\n", *(uint32_t*)(pHdr+14), pHdr+8)); break; default: Log2((" + ARP: unknown op %d\n", RT_N2H_U16(*(uint16_t*)(pHdr+6)))); break; } break; /* There is no default case as uProto is initialized with 0xFF */ } while (uProto != 0xFF) { switch (uProto) { case 0: /* IPv6 Hop-by-Hop option*/ case 60: /* IPv6 Destination option*/ case 43: /* IPv6 Routing option */ case 44: /* IPv6 Fragment option */ Log2((" + IPv6 option (%d): \n", uProto)); uProto = pHdr[0]; pHdr += pHdr[1] * 8 + 8; /* Skip to the next extension/protocol */ break; case 51: /* IPv6 IPsec AH */ Log2((" + IPv6 IPsec AH: \n")); uProto = pHdr[0]; pHdr += (pHdr[1] + 2) * 4; /* Skip to the next extension/protocol */ break; case 50: /* IPv6 IPsec ESP */ /* Cannot decode IPsec, fall through */ Log2((" + IPv6 IPsec ESP: \n")); uProto = 0xFF; break; case 59: /* No Next Header */ Log2((" + IPv6 No Next Header\n")); uProto = 0xFF; break; case 58: /* IPv6-ICMP */ switch (pHdr[0]) { case 1: Log2((" + IPv6-ICMP: destination unreachable, code %d\n", pHdr[1])); break; case 128: Log2((" + IPv6-ICMP: echo request\n")); break; case 129: Log2((" + IPv6-ICMP: echo reply\n")); break; default: Log2((" + IPv6-ICMP: unknown type %d, code %d\n", pHdr[0], pHdr[1])); break; } uProto = 0xFF; break; case 1: /* ICMP */ switch (pHdr[0]) { case 0: Log2((" + ICMP: echo reply\n")); break; case 8: Log2((" + ICMP: echo request\n")); break; case 3: Log2((" + ICMP: destination unreachable, code %d\n", pHdr[1])); break; default: Log2((" + ICMP: unknown type %d, code %d\n", pHdr[0], pHdr[1])); break; } uProto = 0xFF; break; case 6: /* TCP */ Log2((" + TCP: src=%d dst=%d seq=%x ack=%x\n", RT_N2H_U16(*(uint16_t*)(pHdr)), RT_N2H_U16(*(uint16_t*)(pHdr+2)), RT_N2H_U32(*(uint32_t*)(pHdr+4)), RT_N2H_U32(*(uint32_t*)(pHdr+8)))); uProto = 0xFF; break; case 17: /* UDP */ Log2((" + UDP: src=%d dst=%d\n", RT_N2H_U16(*(uint16_t*)(pHdr)), RT_N2H_U16(*(uint16_t*)(pHdr+2)))); uProto = 0xFF; break; default: Log2((" + Unknown: proto=0x%x\n", uProto)); uProto = 0xFF; break; } } Log3(("%.*Rhxd\n", cb, bPacket)); } #else /* !DEBUG */ //# define vboxNetAdpWinDumpFilterTypes(uFlags) do { } while (0) //# define vboxNetAdpWinDumpOffloadSettings(p) do { } while (0) //# define vboxNetAdpWinDumpSetOffloadSettings(p) do { } while (0) # define vboxNetAdpWinDumpPackets(m,l) do { } while (0) # define vboxNetAdpWinDumpPacket(p,t) do { } while (0) #endif /* !DEBUG */ DECLHIDDEN(VBOXNETADPWIN_PACKET_TYPE) vboxNetAdpWinPacketType(PINTNETSG pSG) { static const uint8_t g_abBcastAddr[] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }; AssertReturn(pSG->cbTotal >= sizeof(g_abBcastAddr), kVBoxNetAdpWinPacketType_Unicast); AssertReturn(pSG->cSegsUsed > 0, kVBoxNetAdpWinPacketType_Unicast); AssertReturn(pSG->aSegs[0].cb >= sizeof(g_abBcastAddr), kVBoxNetAdpWinPacketType_Unicast); if (!memcmp(pSG->aSegs[0].pv, g_abBcastAddr, sizeof(g_abBcastAddr))) return kVBoxNetAdpWinPacketType_Broadcast; if ((*(uint8_t*)pSG->aSegs[0].pv) & 1) return kVBoxNetAdpWinPacketType_Multicast; return kVBoxNetAdpWinPacketType_Unicast; } DECLINLINE(void) vboxNetAdpWinUpdateStats(uint64_t *pPacketStats, uint64_t *pOctetStats, PINTNETSG pSG) { VBOXNETADPWIN_PACKET_TYPE enmPktType = vboxNetAdpWinPacketType(pSG); ASMAtomicIncU64(&pPacketStats[enmPktType]); ASMAtomicAddU64(&pOctetStats[enmPktType], pSG->cbTotal); } DECLINLINE(void) vboxNetAdpWinFreeMdlChain(PMDL pMdl) { PMDL pMdlNext; while (pMdl) { pMdlNext = pMdl->Next; PUCHAR pDataBuf; ULONG cb = 0; NdisQueryMdl(pMdl, &pDataBuf, &cb, NormalPagePriority); NdisFreeMdl(pMdl); Log4(("vboxNetAdpWinFreeMdlChain: freed MDL 0x%p\n", pMdl)); NdisFreeMemory(pDataBuf, 0, 0); Log4(("vboxNetAdpWinFreeMdlChain: freed data buffer 0x%p\n", pDataBuf)); pMdl = pMdlNext; } } DECLHIDDEN(PNET_BUFFER_LIST) vboxNetAdpWinSGtoNB(PVBOXNETADP_ADAPTER pThis, PINTNETSG pSG) { AssertReturn(pSG->cSegsUsed >= 1, NULL); LogFlow(("==>vboxNetAdpWinSGtoNB: segments=%d hPool=%p cb=%u\n", pSG->cSegsUsed, pThis->hPool, pSG->cbTotal)); AssertReturn(pThis->hPool, NULL); PNET_BUFFER_LIST pBufList = NULL; ULONG cbMdl = pSG->cbTotal; ULONG uDataOffset = cbMdl - pSG->cbTotal; PUCHAR pDataBuf = (PUCHAR)NdisAllocateMemoryWithTagPriority(pThis->hAdapter, cbMdl, VBOXNETADP_MEM_TAG, NormalPoolPriority); if (pDataBuf) { Log4(("vboxNetAdpWinSGtoNB: allocated data buffer (cb=%u) 0x%p\n", cbMdl, pDataBuf)); PMDL pMdl = NdisAllocateMdl(pThis->hAdapter, pDataBuf, cbMdl); if (!pMdl) { NdisFreeMemory(pDataBuf, 0, 0); Log4(("vboxNetAdpWinSGtoNB: freed data buffer 0x%p\n", pDataBuf)); LogError(("vboxNetAdpWinSGtoNB: failed to allocate an MDL (cb=%u)\n", cbMdl)); LogFlow(("<==vboxNetAdpWinSGtoNB: return NULL\n")); return NULL; } PUCHAR pDst = pDataBuf + uDataOffset; for (int i = 0; i < pSG->cSegsUsed; i++) { NdisMoveMemory(pDst, pSG->aSegs[i].pv, pSG->aSegs[i].cb); pDst += pSG->aSegs[i].cb; } pBufList = NdisAllocateNetBufferAndNetBufferList(pThis->hPool, 0 /* ContextSize */, 0 /* ContextBackFill */, pMdl, uDataOffset, pSG->cbTotal); if (pBufList) { Log4(("vboxNetAdpWinSGtoNB: allocated NBL+NB 0x%p\n", pBufList)); pBufList->SourceHandle = pThis->hAdapter; /** @todo Do we need to initialize anything else? */ } else { LogError(("vboxNetAdpWinSGtoNB: failed to allocate an NBL+NB\n")); vboxNetAdpWinFreeMdlChain(pMdl); } } else { LogError(("vboxNetAdpWinSGtoNB: failed to allocate data buffer (size=%u)\n", cbMdl)); } LogFlow(("<==vboxNetAdpWinSGtoNB: return %p\n", pBufList)); return pBufList; } DECLINLINE(void) vboxNetAdpWinDestroySG(PINTNETSG pSG) { NdisFreeMemory(pSG, 0, 0); Log4(("vboxNetAdpWinDestroySG: freed SG 0x%p\n", pSG)); } /** * Worker for vboxNetAdpWinNBtoSG() that gets the max segment count needed. * @note vboxNetAdpWinNBtoSG may use fewer depending on cbPacket and offset! * @note vboxNetLwfWinCalcSegments() is a copy of this code. */ DECLINLINE(ULONG) vboxNetAdpWinCalcSegments(PNET_BUFFER pNetBuf) { ULONG cSegs = 0; for (PMDL pMdl = NET_BUFFER_CURRENT_MDL(pNetBuf); pMdl; pMdl = NDIS_MDL_LINKAGE(pMdl)) { /* Skip empty MDLs (see @bugref{9233}) */ if (MmGetMdlByteCount(pMdl)) cSegs++; } return cSegs; } /** * @note vboxNetLwfWinNBtoSG() is a copy of this code. */ DECLHIDDEN(PINTNETSG) vboxNetAdpWinNBtoSG(PVBOXNETADP_ADAPTER pThis, PNET_BUFFER pNetBuf) { ULONG cbPacket = NET_BUFFER_DATA_LENGTH(pNetBuf); ULONG cSegs = vboxNetAdpWinCalcSegments(pNetBuf); /* Allocate and initialize SG */ PINTNETSG pSG = (PINTNETSG)NdisAllocateMemoryWithTagPriority(pThis->hAdapter, RT_UOFFSETOF_DYN(INTNETSG, aSegs[cSegs]), VBOXNETADP_MEM_TAG, NormalPoolPriority); AssertReturn(pSG, pSG); Log4(("vboxNetAdpWinNBtoSG: allocated SG 0x%p\n", pSG)); IntNetSgInitTempSegs(pSG, cbPacket /*cbTotal*/, cSegs, cSegs /*cSegsUsed*/); ULONG uOffset = NET_BUFFER_CURRENT_MDL_OFFSET(pNetBuf); cSegs = 0; for (PMDL pMdl = NET_BUFFER_CURRENT_MDL(pNetBuf); pMdl != NULL && cbPacket > 0; pMdl = NDIS_MDL_LINKAGE(pMdl)) { ULONG cbSrc = MmGetMdlByteCount(pMdl); if (cbSrc == 0) continue; /* Skip empty MDLs (see @bugref{9233}) */ PUCHAR pSrc = (PUCHAR)MmGetSystemAddressForMdlSafe(pMdl, LowPagePriority); if (!pSrc) { vboxNetAdpWinDestroySG(pSG); return NULL; } /* Handle the offset in the current (which is the first for us) MDL */ if (uOffset) { if (uOffset < cbSrc) { pSrc += uOffset; cbSrc -= uOffset; uOffset = 0; } else { /* This is an invalid MDL chain */ vboxNetAdpWinDestroySG(pSG); return NULL; } } /* Do not read the last MDL beyond packet's end */ if (cbSrc > cbPacket) cbSrc = cbPacket; Assert(cSegs < pSG->cSegsAlloc); pSG->aSegs[cSegs].pv = pSrc; pSG->aSegs[cSegs].cb = cbSrc; pSG->aSegs[cSegs].Phys = NIL_RTHCPHYS; cSegs++; cbPacket -= cbSrc; } Assert(cbPacket == 0); Assert(cSegs <= pSG->cSegsUsed); /* Update actual segment count in case we used fewer than anticipated. */ pSG->cSegsUsed = (uint16_t)cSegs; return pSG; } DECLINLINE(bool) vboxNetAdpWinIsActive(PVBOXNETADP_ADAPTER pThis) { if (vboxNetAdpWinGetState(pThis) != kVBoxNetAdpWinState_Running) return false; if (pThis->enmTrunkState != INTNETTRUNKIFSTATE_ACTIVE) return false; AssertPtrReturn(pThis->pSwitchPort, false); return true; } DECLHIDDEN(bool) vboxNetAdpWinForwardToIntNet(PVBOXNETADP_ADAPTER pThis, PNET_BUFFER_LIST pList, uint32_t fSrc) { if (!vboxNetAdpWinIsActive(pThis)) { LogFlow(("vboxNetAdpWinForwardToIntNet: not active\n")); return false; } AssertReturn(pThis->pSwitchPort, false); AssertReturn(pThis->pSwitchPort->pfnRecv, false); LogFlow(("==>vboxNetAdpWinForwardToIntNet\n")); if (ASMAtomicIncS32(&pThis->cBusy) == 1) NdisResetEvent(&pThis->EventIdle); for (PNET_BUFFER pBuf = NET_BUFFER_LIST_FIRST_NB(pList); pBuf; pBuf = NET_BUFFER_NEXT_NB(pBuf)) { PINTNETSG pSG = vboxNetAdpWinNBtoSG(pThis, pBuf); if (pSG) { vboxNetAdpWinUpdateStats(pThis->au64StatsOutPackets, pThis->au64StatsOutOctets, pSG); vboxNetAdpWinDumpPacket(pSG, (fSrc & INTNETTRUNKDIR_WIRE)?"intnet <-- wire":"intnet <-- host"); pThis->pSwitchPort->pfnRecv(pThis->pSwitchPort, NULL, pSG, fSrc); vboxNetAdpWinDestroySG(pSG); } } if (ASMAtomicDecS32(&pThis->cBusy) == 0) NdisSetEvent(&pThis->EventIdle); return true; } /** * @copydoc INTNETTRUNKIFPORT::pfnRetain */ static DECLCALLBACK(void) vboxNetAdpWinPortRetain(PINTNETTRUNKIFPORT pIfPort) { PVBOXNETADP_ADAPTER pThis = IFPORT_2_VBOXNETADP_ADAPTER(pIfPort); RT_NOREF1(pThis); LogFlow(("vboxNetAdpWinPortRetain: pThis=%p, pIfPort=%p\n", pThis, pIfPort)); } /** * @copydoc INTNETTRUNKIFPORT::pfnRelease */ static DECLCALLBACK(void) vboxNetAdpWinPortRelease(PINTNETTRUNKIFPORT pIfPort) { PVBOXNETADP_ADAPTER pThis = IFPORT_2_VBOXNETADP_ADAPTER(pIfPort); RT_NOREF1(pThis); LogFlow(("vboxNetAdpWinPortRelease: pThis=%p, pIfPort=%p\n", pThis, pIfPort)); } /** * @copydoc INTNETTRUNKIFPORT::pfnDisconnectAndRelease */ static DECLCALLBACK(void) vboxNetAdpWinPortDisconnectAndRelease(PINTNETTRUNKIFPORT pIfPort) { PVBOXNETADP_ADAPTER pThis = IFPORT_2_VBOXNETADP_ADAPTER(pIfPort); LogFlow(("vboxNetAdpWinPortDisconnectAndRelease: pThis=%p, pIfPort=%p\n", pThis, pIfPort)); /* * Serious paranoia. */ AssertPtr(pThis); Assert(pThis->MyPort.u32Version == INTNETTRUNKIFPORT_VERSION); Assert(pThis->MyPort.u32VersionEnd == INTNETTRUNKIFPORT_VERSION); AssertPtr(pThis->pGlobals); Assert(pThis->szName[0]); AssertPtr(pThis->pSwitchPort); Assert(pThis->enmTrunkState == INTNETTRUNKIFSTATE_DISCONNECTING); pThis->pSwitchPort = NULL; } /** * @copydoc INTNETTRUNKIFPORT::pfnSetState */ static DECLCALLBACK(INTNETTRUNKIFSTATE) vboxNetAdpWinPortSetState(PINTNETTRUNKIFPORT pIfPort, INTNETTRUNKIFSTATE enmState) { PVBOXNETADP_ADAPTER pThis = IFPORT_2_VBOXNETADP_ADAPTER(pIfPort); INTNETTRUNKIFSTATE enmOldTrunkState; LogFlow(("vboxNetAdpWinPortSetState: pThis=%p, pIfPort=%p, enmState=%d\n", pThis, pIfPort, enmState)); /* * Input validation. */ AssertPtr(pThis); AssertPtr(pThis->pGlobals); Assert(pThis->MyPort.u32Version == INTNETTRUNKIFPORT_VERSION); AssertPtrReturn(pThis->pSwitchPort, INTNETTRUNKIFSTATE_INVALID); AssertReturn(enmState > INTNETTRUNKIFSTATE_INVALID && enmState < INTNETTRUNKIFSTATE_END, INTNETTRUNKIFSTATE_INVALID); enmOldTrunkState = pThis->enmTrunkState; if (enmOldTrunkState != enmState) ASMAtomicWriteU32((uint32_t volatile *)&pThis->enmTrunkState, enmState); return enmOldTrunkState; } /** * @copydoc INTNETTRUNKIFPORT::pfnWaitForIdle */ static DECLCALLBACK(int) vboxNetAdpWinPortWaitForIdle(PINTNETTRUNKIFPORT pIfPort, uint32_t cMillies) { PVBOXNETADP_ADAPTER pThis = IFPORT_2_VBOXNETADP_ADAPTER(pIfPort); int rc; LogFlow(("vboxNetAdpWinPortWaitForIdle: pThis=%p, pIfPort=%p, cMillies=%u\n", pThis, pIfPort, cMillies)); /* * Input validation. */ AssertPtr(pThis); Assert(pThis->MyPort.u32Version == INTNETTRUNKIFPORT_VERSION); AssertPtrReturn(pThis->pSwitchPort, VERR_INVALID_STATE); AssertReturn(pThis->enmTrunkState == INTNETTRUNKIFSTATE_DISCONNECTING, VERR_INVALID_STATE); rc = NdisWaitEvent(&pThis->EventIdle, cMillies) ? VINF_SUCCESS : VERR_TIMEOUT; return rc; } /** * @copydoc INTNETTRUNKIFPORT::pfnXmit */ static DECLCALLBACK(int) vboxNetAdpWinPortXmit(PINTNETTRUNKIFPORT pIfPort, void *pvIfData, PINTNETSG pSG, uint32_t fDst) { RT_NOREF1(fDst); PVBOXNETADP_ADAPTER pThis = IFPORT_2_VBOXNETADP_ADAPTER(pIfPort); int rc = VINF_SUCCESS; LogFlow(("vboxNetAdpWinPortXmit: pThis=%p, pIfPort=%p, pvIfData=%p, pSG=%p, fDst=0x%x\n", pThis, pIfPort, pvIfData, pSG, fDst)); RT_NOREF1(pvIfData); /* * Input validation. */ AssertPtr(pThis); AssertPtr(pSG); Assert(pThis->MyPort.u32Version == INTNETTRUNKIFPORT_VERSION); AssertPtrReturn(pThis->pSwitchPort, VERR_INVALID_STATE); vboxNetAdpWinDumpPacket(pSG, "intnet --> host"); /* * First of all, indicate we are busy. It is possible the trunk or the adapter * will get paused or even disconnected, so we need to check the state after * we have marked ourselves busy. * Later, when NDIS returns all buffers, we will mark ourselves idle. */ if (ASMAtomicIncS32(&pThis->cBusy) == 1) NdisResetEvent(&pThis->EventIdle); if (vboxNetAdpWinIsActive(pThis)) { PNET_BUFFER_LIST pBufList = vboxNetAdpWinSGtoNB(pThis, pSG); if (pBufList) { NdisMIndicateReceiveNetBufferLists(pThis->hAdapter, pBufList, NDIS_DEFAULT_PORT_NUMBER, 1, 0); vboxNetAdpWinUpdateStats(pThis->au64StatsInPackets, pThis->au64StatsInOctets, pSG); } } return rc; } /** * @copydoc INTNETTRUNKIFPORT::pfnNotifyMacAddress */ static DECLCALLBACK(void) vboxNetAdpWinPortNotifyMacAddress(PINTNETTRUNKIFPORT pIfPort, void *pvIfData, PCRTMAC pMac) { PVBOXNETADP_ADAPTER pThis = IFPORT_2_VBOXNETADP_ADAPTER(pIfPort); LogFlow(("vboxNetAdpWinPortNotifyMacAddress: pThis=%p, pIfPort=%p, pvIfData=%p, pMac=%p\n", pThis, pIfPort, pvIfData, pMac)); RT_NOREF3(pThis, pvIfData, pMac); /* * Input validation. */ AssertPtr(pThis); Assert(pThis->MyPort.u32Version == INTNETTRUNKIFPORT_VERSION); /// @todo Do we really need to handle this? } /** * @copydoc INTNETTRUNKIFPORT::pfnConnectInterface */ static DECLCALLBACK(int) vboxNetAdpWinPortConnectInterface(PINTNETTRUNKIFPORT pIfPort, void *pvIf, void **ppvIfData) { PVBOXNETADP_ADAPTER pThis = IFPORT_2_VBOXNETADP_ADAPTER(pIfPort); int rc; LogFlow(("vboxNetAdpWinPortConnectInterface: pThis=%p, pIfPort=%p, pvIf=%p, ppvIfData=%p\n", pThis, pIfPort, pvIf, ppvIfData)); RT_NOREF3(pThis, pvIf, ppvIfData); /* * Input validation. */ AssertPtr(pThis); Assert(pThis->MyPort.u32Version == INTNETTRUNKIFPORT_VERSION); rc = VINF_SUCCESS; return rc; } /** * @copydoc INTNETTRUNKIFPORT::pfnDisconnectInterface */ static DECLCALLBACK(void) vboxNetAdpWinPortDisconnectInterface(PINTNETTRUNKIFPORT pIfPort, void *pvIfData) { PVBOXNETADP_ADAPTER pThis = IFPORT_2_VBOXNETADP_ADAPTER(pIfPort); int rc; LogFlow(("vboxNetAdpWinPortDisconnectInterface: pThis=%p, pIfPort=%p, pvIfData=%p\n", pThis, pIfPort, pvIfData)); RT_NOREF2(pThis, pvIfData); /* * Input validation. */ AssertPtr(pThis); Assert(pThis->MyPort.u32Version == INTNETTRUNKIFPORT_VERSION); rc = VINF_SUCCESS; AssertRC(rc); } /** * Implements the SUPDRV component factor interface query method. * * @returns Pointer to an interface. NULL if not supported. * * @param pSupDrvFactory Pointer to the component factory registration structure. * @param pSession The session - unused. * @param pszInterfaceUuid The factory interface id. */ static DECLCALLBACK(void *) vboxNetAdpWinQueryFactoryInterface(PCSUPDRVFACTORY pSupDrvFactory, PSUPDRVSESSION pSession, const char *pszInterfaceUuid) { PVBOXNETADPGLOBALS pGlobals = (PVBOXNETADPGLOBALS)((uint8_t *)pSupDrvFactory - RT_UOFFSETOF(VBOXNETADPGLOBALS, SupDrvFactory)); /* * Convert the UUID strings and compare them. */ RTUUID UuidReq; int rc = RTUuidFromStr(&UuidReq, pszInterfaceUuid); if (RT_SUCCESS(rc)) { if (!RTUuidCompareStr(&UuidReq, INTNETTRUNKFACTORY_UUID_STR)) { NdisAcquireSpinLock(&pGlobals->Lock); if (pGlobals->enmIdcState == kVBoxNetAdpWinIdcState_Connected) { pGlobals->cFactoryRefs++; NdisResetEvent(&pGlobals->EventUnloadAllowed); } NdisReleaseSpinLock(&pGlobals->Lock); return &pGlobals->TrunkFactory; } #ifdef LOG_ENABLED else Log(("VBoxNetFlt: unknown factory interface query (%s)\n", pszInterfaceUuid)); #endif } else Log(("VBoxNetFlt: rc=%Rrc, uuid=%s\n", rc, pszInterfaceUuid)); RT_NOREF1(pSession); return NULL; } DECLHIDDEN(void) vboxNetAdpWinReportCapabilities(PVBOXNETADP_ADAPTER pThis) { if (pThis->pSwitchPort) { pThis->pSwitchPort->pfnReportMacAddress(pThis->pSwitchPort, &pThis->MacAddr); /* Promiscuous mode makes no sense for host-only adapters, does it? */ pThis->pSwitchPort->pfnReportGsoCapabilities(pThis->pSwitchPort, 0, INTNETTRUNKDIR_WIRE | INTNETTRUNKDIR_HOST); pThis->pSwitchPort->pfnReportNoPreemptDsts(pThis->pSwitchPort, 0 /* none */); } } /** * @copydoc INTNETTRUNKFACTORY::pfnCreateAndConnect */ static DECLCALLBACK(int) vboxNetAdpWinFactoryCreateAndConnect(PINTNETTRUNKFACTORY pIfFactory, const char *pszName, PINTNETTRUNKSWPORT pSwitchPort, uint32_t fFlags, PINTNETTRUNKIFPORT *ppIfPort) { PVBOXNETADPGLOBALS pGlobals = (PVBOXNETADPGLOBALS)((uint8_t *)pIfFactory - RT_UOFFSETOF(VBOXNETADPGLOBALS, TrunkFactory)); LogFlow(("==>vboxNetAdpWinFactoryCreateAndConnect: pszName=%p:{%s} fFlags=%#x\n", pszName, pszName, fFlags)); Assert(pGlobals->cFactoryRefs > 0); AssertMsgReturn(!(fFlags & ~(INTNETTRUNKFACTORY_FLAG_NO_PROMISC)), ("%#x\n", fFlags), VERR_INVALID_PARAMETER); DbgPrint("vboxNetAdpWinFactoryCreateAndConnect: looking for %s...\n", pszName); PVBOXNETADP_ADAPTER pAdapter = NULL; NdisAcquireSpinLock(&pGlobals->Lock); RTListForEach(&g_VBoxNetAdpGlobals.ListOfAdapters, pAdapter, VBOXNETADP_ADAPTER, node) { Log(("vboxNetAdpWinFactoryCreateAndConnect: evaluating adapter=%s\n", pAdapter->szName)); DbgPrint("vboxNetAdpWinFactoryCreateAndConnect: evaluating %s...\n", pAdapter->szName); if (!RTStrICmp(pszName, pAdapter->szName)) { pAdapter->pSwitchPort = pSwitchPort; *ppIfPort = &pAdapter->MyPort; NdisReleaseSpinLock(&g_VBoxNetAdpGlobals.Lock); /// @todo too early? adp should have been connected by the time we do this Log(("vboxNetAdpWinFactoryCreateAndConnect: found matching adapter, name=%s\n", pszName)); vboxNetAdpWinReportCapabilities(pAdapter); /// @todo I guess there is no need in vboxNetAdpWinRegisterIpAddrNotifier(pThis); LogFlow(("<==vboxNetAdpWinFactoryCreateAndConnect: return VINF_SUCCESS\n")); return VINF_SUCCESS; } } NdisReleaseSpinLock(&pGlobals->Lock); /// @todo vboxNetAdpLogErrorEvent(IO_ERR_INTERNAL_ERROR, STATUS_SUCCESS, 6); DbgPrint("vboxNetAdpWinFactoryCreateAndConnect: could not find %s\n", pszName); LogFlow(("<==vboxNetAdpWinFactoryCreateAndConnect: return VERR_INTNET_FLT_IF_NOT_FOUND\n")); return VERR_INTNET_FLT_IF_NOT_FOUND; } /** * @copydoc INTNETTRUNKFACTORY::pfnRelease */ static DECLCALLBACK(void) vboxNetAdpWinFactoryRelease(PINTNETTRUNKFACTORY pIfFactory) { PVBOXNETADPGLOBALS pGlobals = (PVBOXNETADPGLOBALS)((uint8_t *)pIfFactory - RT_OFFSETOF(VBOXNETADPGLOBALS, TrunkFactory)); NdisAcquireSpinLock(&pGlobals->Lock); int32_t cRefs = ASMAtomicDecS32(&pGlobals->cFactoryRefs); if (cRefs == 0) NdisSetEvent(&pGlobals->EventUnloadAllowed); NdisReleaseSpinLock(&pGlobals->Lock); Assert(cRefs >= 0); NOREF(cRefs); LogFlow(("vboxNetAdpWinFactoryRelease: cRefs=%d (new)\n", cRefs)); } /* IDC */ DECLINLINE(const char *) vboxNetAdpWinIdcStateToText(uint32_t enmState) { switch (enmState) { case kVBoxNetAdpWinIdcState_Disconnected: return "Disconnected"; case kVBoxNetAdpWinIdcState_Connecting: return "Connecting"; case kVBoxNetAdpWinIdcState_Connected: return "Connected"; case kVBoxNetAdpWinIdcState_Stopping: return "Stopping"; } return "Unknown"; } static VOID vboxNetAdpWinInitIdcWorker(PVOID pvContext) { int rc; PVBOXNETADPGLOBALS pGlobals = (PVBOXNETADPGLOBALS)pvContext; /* * Note that we break the rules here and access IDC state wihout acquiring * the lock. This is ok because vboxNetAdpWinUnload will wait for this * thread to terminate itself and we always use atomic access to IDC state. * We check the state (while holding the lock) further when we have succeeded * to connect. We cannot take the lock here and release it later as we will * be holding it for too long. */ while (ASMAtomicReadU32(&pGlobals->enmIdcState) == kVBoxNetAdpWinIdcState_Connecting) { /* * Establish a connection to SUPDRV and register our component factory. */ rc = SUPR0IdcOpen(&pGlobals->SupDrvIDC, 0 /* iReqVersion = default */, 0 /* iMinVersion = default */, NULL, NULL, NULL); if (RT_SUCCESS(rc)) { rc = SUPR0IdcComponentRegisterFactory(&pGlobals->SupDrvIDC, &pGlobals->SupDrvFactory); if (RT_SUCCESS(rc)) { /* * At this point we should take the lock to access IDC state as * we technically may now race with factory methods. */ NdisAcquireSpinLock(&pGlobals->Lock); bool fSuccess = ASMAtomicCmpXchgU32(&pGlobals->enmIdcState, kVBoxNetAdpWinIdcState_Connected, kVBoxNetAdpWinIdcState_Connecting); NdisReleaseSpinLock(&pGlobals->Lock); if (!fSuccess) { /* The state has been changed (the only valid transition is to "Stopping"), undo init */ rc = SUPR0IdcComponentDeregisterFactory(&pGlobals->SupDrvIDC, &pGlobals->SupDrvFactory); AssertRC(rc); SUPR0IdcClose(&pGlobals->SupDrvIDC); Log(("vboxNetAdpWinInitIdcWorker: state change (Connecting -> %s) while initializing IDC, closed IDC, rc=0x%x\n", vboxNetAdpWinIdcStateToText(ASMAtomicReadU32(&pGlobals->enmIdcState)), rc)); } else { Log(("vboxNetAdpWinInitIdcWorker: IDC state change Connecting -> Connected\n")); } } } else { LARGE_INTEGER WaitIn100nsUnits; WaitIn100nsUnits.QuadPart = -(LONGLONG)5000000; /* 0.5 sec */ KeDelayExecutionThread(KernelMode, FALSE /* non-alertable */, &WaitIn100nsUnits); } } PsTerminateSystemThread(STATUS_SUCCESS); } DECLHIDDEN(int) vboxNetAdpWinStartInitIdcThread(PVBOXNETADPGLOBALS pGlobals) { int rc = VERR_INVALID_STATE; /* No locking needed yet */ if (ASMAtomicCmpXchgU32(&pGlobals->enmIdcState, kVBoxNetAdpWinIdcState_Connecting, kVBoxNetAdpWinIdcState_Disconnected)) { Log(("vboxNetAdpWinStartInitIdcThread: IDC state change Diconnected -> Connecting\n")); NTSTATUS Status = PsCreateSystemThread(&g_VBoxNetAdpGlobals.hInitIdcThread, THREAD_ALL_ACCESS, NULL, NULL, NULL, vboxNetAdpWinInitIdcWorker, &g_VBoxNetAdpGlobals); Log(("vboxNetAdpWinStartInitIdcThread: create IDC initialization thread, status=0x%x\n", Status)); if (Status != STATUS_SUCCESS) { LogError(("vboxNetAdpWinStartInitIdcThread: IDC initialization failed (system thread creation, status=0x%x)\n", Status)); /* * We failed to init IDC and there will be no second chance. */ Log(("vboxNetAdpWinStartInitIdcThread: IDC state change Connecting -> Diconnected\n")); ASMAtomicWriteU32(&g_VBoxNetAdpGlobals.enmIdcState, kVBoxNetAdpWinIdcState_Disconnected); } rc = RTErrConvertFromNtStatus(Status); } return rc; } /* === !!!! */ NDIS_OID g_SupportedOids[] = { OID_GEN_CURRENT_LOOKAHEAD, OID_GEN_CURRENT_PACKET_FILTER, OID_GEN_INTERRUPT_MODERATION, OID_GEN_LINK_PARAMETERS, OID_GEN_MAXIMUM_TOTAL_SIZE, OID_GEN_RCV_OK, OID_GEN_RECEIVE_BLOCK_SIZE, OID_GEN_RECEIVE_BUFFER_SPACE, OID_GEN_STATISTICS, OID_GEN_TRANSMIT_BLOCK_SIZE, OID_GEN_TRANSMIT_BUFFER_SPACE, OID_GEN_VENDOR_DESCRIPTION, OID_GEN_VENDOR_DRIVER_VERSION, OID_GEN_VENDOR_ID, OID_GEN_XMIT_OK, OID_802_3_PERMANENT_ADDRESS, OID_802_3_CURRENT_ADDRESS, OID_802_3_MULTICAST_LIST, OID_802_3_MAXIMUM_LIST_SIZE, OID_PNP_CAPABILITIES, OID_PNP_QUERY_POWER, OID_PNP_SET_POWER }; DECLHIDDEN(NDIS_STATUS) vboxNetAdpWinAllocAdapter(NDIS_HANDLE hAdapter, PVBOXNETADP_ADAPTER *ppAdapter, ULONG uIfIndex) { NDIS_STATUS Status = NDIS_STATUS_SUCCESS; PVBOXNETADP_ADAPTER pAdapter = NULL; PVBOXNETADPGLOBALS pGlobals = &g_VBoxNetAdpGlobals; LogFlow(("==>vboxNetAdpWinAllocAdapter: adapter handle=%p\n", hAdapter)); /* Get the name */ UNICODE_STRING strUnicodeName; Status = NdisMQueryAdapterInstanceName(&strUnicodeName, hAdapter); if (Status != NDIS_STATUS_SUCCESS) { LogError(("vboxNetAdpWinAllocAdapter: NdisMQueryAdapterInstanceName failed with 0x%x\n", Status)); return Status; } ANSI_STRING strAnsiName; /* We use the miniport name to associate this filter module with the netflt instance */ NTSTATUS rc = RtlUnicodeStringToAnsiString(&strAnsiName, &strUnicodeName, TRUE); if (rc != STATUS_SUCCESS) { LogError(("vboxNetAdpWinAllocAdapter: RtlUnicodeStringToAnsiString(%ls) failed with 0x%x\n", strUnicodeName, rc)); //vboxNetAdpLogErrorEvent(IO_ERR_INTERNAL_ERROR, NDIS_STATUS_FAILURE, 2); NdisFreeMemory(strUnicodeName.Buffer, 0, 0); return NDIS_STATUS_FAILURE; } NdisFreeMemory(strUnicodeName.Buffer, 0, 0); DbgPrint("vboxNetAdpWinAllocAdapter: name=%Z\n", &strAnsiName); *ppAdapter = NULL; UINT cbAdapterWithNameExtra = sizeof(VBOXNETADP_ADAPTER) + strAnsiName.Length; pAdapter = (PVBOXNETADP_ADAPTER)NdisAllocateMemoryWithTagPriority(pGlobals->hMiniportDriver, cbAdapterWithNameExtra, VBOXNETADPWIN_TAG, NormalPoolPriority); if (!pAdapter) { RtlFreeAnsiString(&strAnsiName); Status = NDIS_STATUS_RESOURCES; Log(("vboxNetAdpWinAllocAdapter: Out of memory while allocating adapter context (size=%d)\n", sizeof(VBOXNETADP_ADAPTER))); } else { NdisZeroMemory(pAdapter, cbAdapterWithNameExtra); NdisMoveMemory(pAdapter->szName, strAnsiName.Buffer, strAnsiName.Length); RtlFreeAnsiString(&strAnsiName); /* Allocate buffer pool */ NET_BUFFER_LIST_POOL_PARAMETERS PoolParams; NdisZeroMemory(&PoolParams, sizeof(PoolParams)); PoolParams.Header.Type = NDIS_OBJECT_TYPE_DEFAULT; PoolParams.Header.Revision = NET_BUFFER_LIST_POOL_PARAMETERS_REVISION_1; PoolParams.Header.Size = sizeof(PoolParams); PoolParams.ProtocolId = NDIS_PROTOCOL_ID_DEFAULT; PoolParams.fAllocateNetBuffer = TRUE; PoolParams.ContextSize = 0; PoolParams.PoolTag = VBOXNETADP_MEM_TAG; pAdapter->hPool = NdisAllocateNetBufferListPool(hAdapter, &PoolParams); if (!pAdapter->hPool) { LogError(("vboxNetAdpWinAllocAdapter: NdisAllocateNetBufferListPool failed\n")); NdisFreeMemory(pAdapter, 0, 0); return NDIS_STATUS_RESOURCES; } Log4(("vboxNetAdpWinAllocAdapter: allocated NBL+NB pool 0x%p\n", pAdapter->hPool)); pAdapter->hAdapter = hAdapter; pAdapter->MyPort.u32Version = INTNETTRUNKIFPORT_VERSION; pAdapter->MyPort.pfnRetain = vboxNetAdpWinPortRetain; pAdapter->MyPort.pfnRelease = vboxNetAdpWinPortRelease; pAdapter->MyPort.pfnDisconnectAndRelease = vboxNetAdpWinPortDisconnectAndRelease; pAdapter->MyPort.pfnSetState = vboxNetAdpWinPortSetState; pAdapter->MyPort.pfnWaitForIdle = vboxNetAdpWinPortWaitForIdle; pAdapter->MyPort.pfnXmit = vboxNetAdpWinPortXmit; pAdapter->MyPort.pfnNotifyMacAddress = vboxNetAdpWinPortNotifyMacAddress; pAdapter->MyPort.pfnConnectInterface = vboxNetAdpWinPortConnectInterface; pAdapter->MyPort.pfnDisconnectInterface = vboxNetAdpWinPortDisconnectInterface; pAdapter->MyPort.u32VersionEnd = INTNETTRUNKIFPORT_VERSION; pAdapter->pGlobals = pGlobals; pAdapter->enmAdapterState = kVBoxNetAdpWinState_Initializing; pAdapter->enmTrunkState = INTNETTRUNKIFSTATE_INACTIVE; pAdapter->cBusy = 0; NdisInitializeEvent(&pAdapter->EventIdle); NdisSetEvent(&pAdapter->EventIdle); /* We are idle initially */ /* Use a locally administered version of the OUI we use for the guest NICs. */ pAdapter->MacAddr.au8[0] = 0x08 | 2; pAdapter->MacAddr.au8[1] = 0x00; pAdapter->MacAddr.au8[2] = 0x27; pAdapter->MacAddr.au8[3] = (uIfIndex >> 16) & 0xFF; pAdapter->MacAddr.au8[4] = (uIfIndex >> 8) & 0xFF; pAdapter->MacAddr.au8[5] = uIfIndex & 0xFF; NdisAcquireSpinLock(&pGlobals->Lock); RTListPrepend(&pGlobals->ListOfAdapters, &pAdapter->node); NdisReleaseSpinLock(&pGlobals->Lock); *ppAdapter = pAdapter; } LogFlow(("<==vboxNetAdpWinAllocAdapter: status=0x%x\n", Status)); return Status; } DECLHIDDEN(void) vboxNetAdpWinFreeAdapter(PVBOXNETADP_ADAPTER pAdapter) { /* Remove from adapter chain */ NdisAcquireSpinLock(&pAdapter->pGlobals->Lock); RTListNodeRemove(&pAdapter->node); NdisReleaseSpinLock(&pAdapter->pGlobals->Lock); NdisFreeMemory(pAdapter, 0, 0); } DECLINLINE(NDIS_MEDIA_CONNECT_STATE) vboxNetAdpWinGetConnectState(PVBOXNETADP_ADAPTER pAdapter) { RT_NOREF1(pAdapter); return MediaConnectStateConnected; } DECLHIDDEN(NDIS_STATUS) vboxNetAdpWinInitializeEx(IN NDIS_HANDLE NdisMiniportHandle, IN NDIS_HANDLE MiniportDriverContext, IN PNDIS_MINIPORT_INIT_PARAMETERS MiniportInitParameters) { RT_NOREF1(MiniportDriverContext); PVBOXNETADP_ADAPTER pAdapter = NULL; NDIS_STATUS Status = NDIS_STATUS_SUCCESS; LogFlow(("==>vboxNetAdpWinInitializeEx: miniport=0x%x\n", NdisMiniportHandle)); do { NDIS_MINIPORT_ADAPTER_REGISTRATION_ATTRIBUTES RAttrs = {{0}}; NDIS_MINIPORT_ADAPTER_GENERAL_ATTRIBUTES GAttrs = {{0}}; Status = vboxNetAdpWinAllocAdapter(NdisMiniportHandle, &pAdapter, MiniportInitParameters->IfIndex); if (Status != NDIS_STATUS_SUCCESS) { Log(("vboxNetAdpWinInitializeEx: Failed to allocate the adapter context with 0x%x\n", Status)); break; } RAttrs.Header.Type = NDIS_OBJECT_TYPE_MINIPORT_ADAPTER_REGISTRATION_ATTRIBUTES; RAttrs.Header.Size = NDIS_SIZEOF_MINIPORT_ADAPTER_REGISTRATION_ATTRIBUTES_REVISION_1; RAttrs.Header.Revision = NDIS_MINIPORT_ADAPTER_REGISTRATION_ATTRIBUTES_REVISION_1; RAttrs.MiniportAdapterContext = pAdapter; RAttrs.AttributeFlags = VBOXNETADPWIN_ATTR_FLAGS; // NDIS_MINIPORT_ATTRIBUTES_NDIS_WDM RAttrs.CheckForHangTimeInSeconds = VBOXNETADPWIN_HANG_CHECK_TIME; RAttrs.InterfaceType = NdisInterfaceInternal; Status = NdisMSetMiniportAttributes(NdisMiniportHandle, (PNDIS_MINIPORT_ADAPTER_ATTRIBUTES)&RAttrs); if (Status != NDIS_STATUS_SUCCESS) { Log(("vboxNetAdpWinInitializeEx: NdisMSetMiniportAttributes(registration) failed with 0x%x\n", Status)); break; } /// @todo Registry? /// @todo WDM stack? /// @todo DPC? GAttrs.Header.Type = NDIS_OBJECT_TYPE_MINIPORT_ADAPTER_GENERAL_ATTRIBUTES; GAttrs.Header.Size = NDIS_SIZEOF_MINIPORT_ADAPTER_GENERAL_ATTRIBUTES_REVISION_1; GAttrs.Header.Revision = NDIS_MINIPORT_ADAPTER_GENERAL_ATTRIBUTES_REVISION_1; GAttrs.MediaType = NdisMedium802_3; GAttrs.PhysicalMediumType = NdisPhysicalMediumUnspecified; GAttrs.MtuSize = 1500; /// @todo GAttrs.MaxXmitLinkSpeed = VBOXNETADPWIN_LINK_SPEED; GAttrs.XmitLinkSpeed = VBOXNETADPWIN_LINK_SPEED; GAttrs.MaxRcvLinkSpeed = VBOXNETADPWIN_LINK_SPEED; GAttrs.RcvLinkSpeed = VBOXNETADPWIN_LINK_SPEED; GAttrs.MediaConnectState = vboxNetAdpWinGetConnectState(pAdapter); GAttrs.MediaDuplexState = MediaDuplexStateFull; GAttrs.LookaheadSize = 1500; /// @todo GAttrs.MacOptions = VBOXNETADP_MAC_OPTIONS; GAttrs.SupportedPacketFilters = VBOXNETADP_SUPPORTED_FILTERS; GAttrs.MaxMulticastListSize = 32; /// @todo GAttrs.MacAddressLength = ETH_LENGTH_OF_ADDRESS; Assert(GAttrs.MacAddressLength == sizeof(pAdapter->MacAddr)); memcpy(GAttrs.PermanentMacAddress, pAdapter->MacAddr.au8, GAttrs.MacAddressLength); memcpy(GAttrs.CurrentMacAddress, pAdapter->MacAddr.au8, GAttrs.MacAddressLength); GAttrs.RecvScaleCapabilities = NULL; GAttrs.AccessType = NET_IF_ACCESS_BROADCAST; GAttrs.DirectionType = NET_IF_DIRECTION_SENDRECEIVE; GAttrs.ConnectionType = NET_IF_CONNECTION_DEDICATED; GAttrs.IfType = IF_TYPE_ETHERNET_CSMACD; GAttrs.IfConnectorPresent = false; GAttrs.SupportedStatistics = VBOXNETADPWIN_SUPPORTED_STATISTICS; GAttrs.SupportedPauseFunctions = NdisPauseFunctionsUnsupported; GAttrs.DataBackFillSize = 0; GAttrs.ContextBackFillSize = 0; GAttrs.SupportedOidList = g_SupportedOids; GAttrs.SupportedOidListLength = sizeof(g_SupportedOids); GAttrs.AutoNegotiationFlags = NDIS_LINK_STATE_DUPLEX_AUTO_NEGOTIATED; GAttrs.PowerManagementCapabilities = &g_VBoxNetAdpGlobals.PMCaps; Status = NdisMSetMiniportAttributes(NdisMiniportHandle, (PNDIS_MINIPORT_ADAPTER_ATTRIBUTES)&GAttrs); if (Status != NDIS_STATUS_SUCCESS) { Log(("vboxNetAdpWinInitializeEx: NdisMSetMiniportAttributes(general) failed with 0x%x\n", Status)); break; } VBOXNETADPWIN_ADAPTER_STATE enmPrevState = vboxNetAdpWinSetState(pAdapter, kVBoxNetAdpWinState_Paused); RT_NOREF1(enmPrevState); Assert(enmPrevState == kVBoxNetAdpWinState_Initializing); } while (false); if (Status != NDIS_STATUS_SUCCESS) { if (pAdapter) vboxNetAdpWinFreeAdapter(pAdapter); } LogFlow(("<==vboxNetAdpWinInitializeEx: status=0x%x\n", Status)); return Status; } DECLHIDDEN(VOID) vboxNetAdpWinHaltEx(IN NDIS_HANDLE MiniportAdapterContext, IN NDIS_HALT_ACTION HaltAction) { RT_NOREF1(HaltAction); PVBOXNETADP_ADAPTER pThis = (PVBOXNETADP_ADAPTER)MiniportAdapterContext; LogFlow(("==>vboxNetAdpWinHaltEx\n")); AssertPtr(pThis); Assert(vboxNetAdpWinGetState(pThis) == kVBoxNetAdpWinState_Paused); /* * Check if the trunk is active which means the adapter gets disabled * while it is used by VM(s) and we need to disconnect the trunk. */ if (pThis->pSwitchPort && pThis->enmTrunkState == INTNETTRUNKIFSTATE_ACTIVE) pThis->pSwitchPort->pfnDisconnect(pThis->pSwitchPort, &pThis->MyPort, NULL); /* * Since we are already in the paused state and we have disconnected * the trunk, we can safely destroy this adapter. */ vboxNetAdpWinFreeAdapter(pThis); LogFlow(("<==vboxNetAdpWinHaltEx\n")); } DECLHIDDEN(NDIS_STATUS) vboxNetAdpWinPause(IN NDIS_HANDLE MiniportAdapterContext, IN PNDIS_MINIPORT_PAUSE_PARAMETERS MiniportPauseParameters) { RT_NOREF1(MiniportPauseParameters); PVBOXNETADP_ADAPTER pThis = (PVBOXNETADP_ADAPTER)MiniportAdapterContext; NDIS_STATUS Status = NDIS_STATUS_SUCCESS; LogFlow(("==>vboxNetAdpWinPause\n")); VBOXNETADPWIN_ADAPTER_STATE enmPrevState = vboxNetAdpWinSetState(pThis, kVBoxNetAdpWinState_Pausing); Assert(enmPrevState == kVBoxNetAdpWinState_Running); if (!NdisWaitEvent(&pThis->EventIdle, 1000 /* ms */)) { LogError(("vboxNetAdpWinPause: timed out while pausing the adapter\n")); /// @todo implement NDIS_STATUS_PENDING case? probably not. } enmPrevState = vboxNetAdpWinSetState(pThis, kVBoxNetAdpWinState_Paused); Assert(enmPrevState == kVBoxNetAdpWinState_Pausing); LogFlow(("<==vboxNetAdpWinPause: status=0x%x\n", Status)); return Status; } DECLHIDDEN(NDIS_STATUS) vboxNetAdpWinRestart(IN NDIS_HANDLE MiniportAdapterContext, IN PNDIS_MINIPORT_RESTART_PARAMETERS MiniportRestartParameters) { RT_NOREF1(MiniportRestartParameters); PVBOXNETADP_ADAPTER pThis = (PVBOXNETADP_ADAPTER)MiniportAdapterContext; NDIS_STATUS Status = NDIS_STATUS_SUCCESS; LogFlow(("==>vboxNetAdpWinRestart\n")); VBOXNETADPWIN_ADAPTER_STATE enmPrevState = vboxNetAdpWinSetState(pThis, kVBoxNetAdpWinState_Restarting); Assert(enmPrevState == kVBoxNetAdpWinState_Paused); /// @todo anything? enmPrevState = vboxNetAdpWinSetState(pThis, kVBoxNetAdpWinState_Running); Assert(enmPrevState == kVBoxNetAdpWinState_Restarting); LogFlow(("<==vboxNetAdpWinRestart: status=0x%x\n", Status)); return Status; } DECLINLINE(uint64_t) vboxNetAdpWinStatsTotals(uint64_t *pStats) { return pStats[kVBoxNetAdpWinPacketType_Unicast] + pStats[kVBoxNetAdpWinPacketType_Multicast] + pStats[kVBoxNetAdpWinPacketType_Broadcast]; } DECLINLINE(PVOID) vboxNetAdpWinStatsU64(uint64_t *pTmp, ULONG *pcbTmp, uint64_t u64Stat) { *pcbTmp = sizeof(*pTmp); *pTmp = u64Stat; return pTmp; } DECLHIDDEN(NDIS_STATUS) vboxNetAdpWinOidRqQuery(PVBOXNETADP_ADAPTER pThis, PNDIS_OID_REQUEST pRequest) { NDIS_STATUS Status = NDIS_STATUS_SUCCESS; struct _NDIS_OID_REQUEST::_REQUEST_DATA::_QUERY *pQuery = &pRequest->DATA.QUERY_INFORMATION; LogFlow(("==>vboxNetAdpWinOidRqQuery\n")); uint64_t u64Tmp = 0; ULONG ulTmp = 0; PVOID pInfo = &ulTmp; ULONG cbInfo = sizeof(ulTmp); switch (pQuery->Oid) { case OID_GEN_INTERRUPT_MODERATION: { PNDIS_INTERRUPT_MODERATION_PARAMETERS pParams = (PNDIS_INTERRUPT_MODERATION_PARAMETERS)pQuery->InformationBuffer; cbInfo = NDIS_SIZEOF_INTERRUPT_MODERATION_PARAMETERS_REVISION_1; if (cbInfo > pQuery->InformationBufferLength) break; pParams->Header.Type = NDIS_OBJECT_TYPE_DEFAULT; pParams->Header.Revision = NDIS_INTERRUPT_MODERATION_PARAMETERS_REVISION_1; pParams->Header.Size = NDIS_SIZEOF_INTERRUPT_MODERATION_PARAMETERS_REVISION_1; pParams->Flags = 0; pParams->InterruptModeration = NdisInterruptModerationNotSupported; pInfo = NULL; /* Do not copy */ break; } case OID_GEN_MAXIMUM_TOTAL_SIZE: case OID_GEN_RECEIVE_BLOCK_SIZE: case OID_GEN_TRANSMIT_BLOCK_SIZE: ulTmp = VBOXNETADP_MAX_FRAME_SIZE; break; case OID_GEN_RECEIVE_BUFFER_SPACE: case OID_GEN_TRANSMIT_BUFFER_SPACE: /// @todo Make configurable ulTmp = VBOXNETADP_MAX_FRAME_SIZE * 40; break; case OID_GEN_RCV_OK: pInfo = vboxNetAdpWinStatsU64(&u64Tmp, &cbInfo, vboxNetAdpWinStatsTotals(pThis->au64StatsInPackets)); break; case OID_GEN_XMIT_OK: pInfo = vboxNetAdpWinStatsU64(&u64Tmp, &cbInfo, vboxNetAdpWinStatsTotals(pThis->au64StatsOutPackets)); break; case OID_GEN_STATISTICS: { PNDIS_STATISTICS_INFO pStats = (PNDIS_STATISTICS_INFO)pQuery->InformationBuffer; cbInfo = NDIS_SIZEOF_STATISTICS_INFO_REVISION_1; if (cbInfo > pQuery->InformationBufferLength) break; pInfo = NULL; /* Do not copy */ memset(pStats, 0, cbInfo); pStats->Header.Type = NDIS_OBJECT_TYPE_DEFAULT; pStats->Header.Revision = NDIS_STATISTICS_INFO_REVISION_1; pStats->Header.Size = NDIS_SIZEOF_STATISTICS_INFO_REVISION_1; pStats->SupportedStatistics = NDIS_STATISTICS_FLAGS_VALID_DIRECTED_FRAMES_RCV | NDIS_STATISTICS_FLAGS_VALID_MULTICAST_FRAMES_RCV | NDIS_STATISTICS_FLAGS_VALID_BROADCAST_FRAMES_RCV | NDIS_STATISTICS_FLAGS_VALID_BYTES_RCV | NDIS_STATISTICS_FLAGS_VALID_RCV_DISCARDS | NDIS_STATISTICS_FLAGS_VALID_RCV_ERROR | NDIS_STATISTICS_FLAGS_VALID_DIRECTED_FRAMES_XMIT | NDIS_STATISTICS_FLAGS_VALID_MULTICAST_FRAMES_XMIT | NDIS_STATISTICS_FLAGS_VALID_BROADCAST_FRAMES_XMIT | NDIS_STATISTICS_FLAGS_VALID_BYTES_XMIT | NDIS_STATISTICS_FLAGS_VALID_XMIT_ERROR | NDIS_STATISTICS_FLAGS_VALID_XMIT_DISCARDS | NDIS_STATISTICS_FLAGS_VALID_DIRECTED_BYTES_RCV | NDIS_STATISTICS_FLAGS_VALID_MULTICAST_BYTES_RCV | NDIS_STATISTICS_FLAGS_VALID_BROADCAST_BYTES_RCV | NDIS_STATISTICS_FLAGS_VALID_DIRECTED_BYTES_XMIT | NDIS_STATISTICS_FLAGS_VALID_MULTICAST_BYTES_XMIT | NDIS_STATISTICS_FLAGS_VALID_BROADCAST_BYTES_XMIT; pStats->ifHCInOctets = vboxNetAdpWinStatsTotals(pThis->au64StatsInOctets); pStats->ifHCInUcastPkts = ASMAtomicReadU64(&pThis->au64StatsInPackets[kVBoxNetAdpWinPacketType_Unicast]); pStats->ifHCInMulticastPkts = ASMAtomicReadU64(&pThis->au64StatsInPackets[kVBoxNetAdpWinPacketType_Multicast]); pStats->ifHCInBroadcastPkts = ASMAtomicReadU64(&pThis->au64StatsInPackets[kVBoxNetAdpWinPacketType_Broadcast]); pStats->ifHCOutOctets = vboxNetAdpWinStatsTotals(pThis->au64StatsOutOctets);; pStats->ifHCOutUcastPkts = ASMAtomicReadU64(&pThis->au64StatsOutPackets[kVBoxNetAdpWinPacketType_Unicast]); pStats->ifHCOutMulticastPkts = ASMAtomicReadU64(&pThis->au64StatsOutPackets[kVBoxNetAdpWinPacketType_Multicast]); pStats->ifHCOutBroadcastPkts = ASMAtomicReadU64(&pThis->au64StatsOutPackets[kVBoxNetAdpWinPacketType_Broadcast]); pStats->ifHCInUcastOctets = ASMAtomicReadU64(&pThis->au64StatsInOctets[kVBoxNetAdpWinPacketType_Unicast]); pStats->ifHCInMulticastOctets = ASMAtomicReadU64(&pThis->au64StatsInOctets[kVBoxNetAdpWinPacketType_Multicast]); pStats->ifHCInBroadcastOctets = ASMAtomicReadU64(&pThis->au64StatsInOctets[kVBoxNetAdpWinPacketType_Broadcast]); pStats->ifHCOutUcastOctets = ASMAtomicReadU64(&pThis->au64StatsOutOctets[kVBoxNetAdpWinPacketType_Unicast]); pStats->ifHCOutMulticastOctets = ASMAtomicReadU64(&pThis->au64StatsOutOctets[kVBoxNetAdpWinPacketType_Multicast]); pStats->ifHCOutBroadcastOctets = ASMAtomicReadU64(&pThis->au64StatsOutOctets[kVBoxNetAdpWinPacketType_Broadcast]); break; } case OID_GEN_VENDOR_DESCRIPTION: pInfo = VBOXNETADP_VENDOR_NAME; cbInfo = sizeof(VBOXNETADP_VENDOR_NAME); break; case OID_GEN_VENDOR_DRIVER_VERSION: ulTmp = (VBOXNETADP_VERSION_NDIS_MAJOR << 16) | VBOXNETADP_VERSION_NDIS_MINOR; break; case OID_GEN_VENDOR_ID: ulTmp = VBOXNETADP_VENDOR_ID; break; case OID_802_3_PERMANENT_ADDRESS: case OID_802_3_CURRENT_ADDRESS: pInfo = &pThis->MacAddr; cbInfo = sizeof(pThis->MacAddr); break; //case OID_802_3_MULTICAST_LIST: case OID_802_3_MAXIMUM_LIST_SIZE: ulTmp = VBOXNETADP_MCAST_LIST_SIZE; break; case OID_PNP_CAPABILITIES: pInfo = &pThis->pGlobals->PMCaps; cbInfo = sizeof(pThis->pGlobals->PMCaps); break; case OID_PNP_QUERY_POWER: pInfo = NULL; /* Do not copy */ cbInfo = 0; break; default: Status = NDIS_STATUS_NOT_SUPPORTED; break; } if (Status == NDIS_STATUS_SUCCESS) { if (cbInfo > pQuery->InformationBufferLength) { pQuery->BytesNeeded = cbInfo; Status = NDIS_STATUS_BUFFER_TOO_SHORT; } else { if (pInfo) NdisMoveMemory(pQuery->InformationBuffer, pInfo, cbInfo); pQuery->BytesWritten = cbInfo; } } LogFlow(("<==vboxNetAdpWinOidRqQuery: status=0x%x\n", Status)); return Status; } DECLHIDDEN(NDIS_STATUS) vboxNetAdpWinOidRqSet(PVBOXNETADP_ADAPTER pAdapter, PNDIS_OID_REQUEST pRequest) { RT_NOREF1(pAdapter); NDIS_STATUS Status = NDIS_STATUS_SUCCESS; struct _NDIS_OID_REQUEST::_REQUEST_DATA::_SET *pSet = &pRequest->DATA.SET_INFORMATION; LogFlow(("==>vboxNetAdpWinOidRqSet\n")); switch (pSet->Oid) { case OID_GEN_CURRENT_LOOKAHEAD: if (pSet->InformationBufferLength != sizeof(ULONG)) { pSet->BytesNeeded = sizeof(ULONG); Status = NDIS_STATUS_INVALID_LENGTH; break; } /// @todo For the time being we simply ignore lookahead settings. pSet->BytesRead = sizeof(ULONG); Status = NDIS_STATUS_SUCCESS; break; case OID_GEN_CURRENT_PACKET_FILTER: if (pSet->InformationBufferLength != sizeof(ULONG)) { pSet->BytesNeeded = sizeof(ULONG); Status = NDIS_STATUS_INVALID_LENGTH; break; } /// @todo For the time being we simply ignore packet filter settings. pSet->BytesRead = pSet->InformationBufferLength; Status = NDIS_STATUS_SUCCESS; break; case OID_GEN_INTERRUPT_MODERATION: pSet->BytesNeeded = 0; pSet->BytesRead = 0; Status = NDIS_STATUS_INVALID_DATA; break; case OID_PNP_SET_POWER: if (pSet->InformationBufferLength < sizeof(NDIS_DEVICE_POWER_STATE)) { Status = NDIS_STATUS_INVALID_LENGTH; break; } pSet->BytesRead = sizeof(NDIS_DEVICE_POWER_STATE); Status = NDIS_STATUS_SUCCESS; break; default: Status = NDIS_STATUS_NOT_SUPPORTED; break; } LogFlow(("<==vboxNetAdpWinOidRqSet: status=0x%x\n", Status)); return Status; } DECLHIDDEN(NDIS_STATUS) vboxNetAdpWinOidRequest(IN NDIS_HANDLE MiniportAdapterContext, IN PNDIS_OID_REQUEST NdisRequest) { NDIS_STATUS Status = NDIS_STATUS_SUCCESS; PVBOXNETADP_ADAPTER pAdapter = (PVBOXNETADP_ADAPTER)MiniportAdapterContext; LogFlow(("==>vboxNetAdpWinOidRequest\n")); vboxNetCmnWinDumpOidRequest(__FUNCTION__, NdisRequest); switch (NdisRequest->RequestType) { #if 0 case NdisRequestMethod: Status = vboxNetAdpWinOidRqMethod(pAdapter, NdisRequest); break; #endif case NdisRequestSetInformation: Status = vboxNetAdpWinOidRqSet(pAdapter, NdisRequest); break; case NdisRequestQueryInformation: case NdisRequestQueryStatistics: Status = vboxNetAdpWinOidRqQuery(pAdapter, NdisRequest); break; default: Status = NDIS_STATUS_NOT_SUPPORTED; break; } LogFlow(("<==vboxNetAdpWinOidRequest: status=0x%x\n", Status)); return Status; } DECLHIDDEN(VOID) vboxNetAdpWinSendNetBufferLists(IN NDIS_HANDLE MiniportAdapterContext, IN PNET_BUFFER_LIST NetBufferLists, IN NDIS_PORT_NUMBER PortNumber, IN ULONG SendFlags) { RT_NOREF1(PortNumber); PVBOXNETADP_ADAPTER pAdapter = (PVBOXNETADP_ADAPTER)MiniportAdapterContext; LogFlow(("==>vboxNetAdpWinSendNetBufferLists\n")); PNET_BUFFER_LIST pNbl = NetBufferLists; vboxNetAdpWinDumpPackets("vboxNetAdpWinSendNetBufferLists: got", pNbl); /* We alwast complete all send requests. */ for (pNbl = NetBufferLists; pNbl; pNbl = NET_BUFFER_LIST_NEXT_NBL(pNbl)) { vboxNetAdpWinForwardToIntNet(pAdapter, pNbl, INTNETTRUNKDIR_HOST); NET_BUFFER_LIST_STATUS(pNbl) = NDIS_STATUS_SUCCESS; } NdisMSendNetBufferListsComplete(pAdapter->hAdapter, NetBufferLists, (SendFlags & NDIS_SEND_FLAGS_DISPATCH_LEVEL) ? NDIS_SEND_COMPLETE_FLAGS_DISPATCH_LEVEL : 0); LogFlow(("<==vboxNetAdpWinSendNetBufferLists\n")); } DECLHIDDEN(VOID) vboxNetAdpWinReturnNetBufferLists(IN NDIS_HANDLE MiniportAdapterContext, IN PNET_BUFFER_LIST NetBufferLists, IN ULONG ReturnFlags) { LogFlow(("==>vboxNetAdpWinReturnNetBufferLists\n")); RT_NOREF1(ReturnFlags); PVBOXNETADP_ADAPTER pThis = (PVBOXNETADP_ADAPTER)MiniportAdapterContext; PNET_BUFFER_LIST pList = NetBufferLists; while (pList) { Assert(pList->SourceHandle == pThis->hAdapter); Assert(NET_BUFFER_LIST_FIRST_NB(pList)); Assert(NET_BUFFER_FIRST_MDL(NET_BUFFER_LIST_FIRST_NB(pList))); PNET_BUFFER_LIST pNextList = NET_BUFFER_LIST_NEXT_NBL(pList); vboxNetAdpWinFreeMdlChain(NET_BUFFER_FIRST_MDL(NET_BUFFER_LIST_FIRST_NB(pList))); NdisFreeNetBufferList(pList); Log4(("vboxNetLwfWinReturnNetBufferLists: freed NBL+NB+MDL+Data 0x%p\n", pList)); Assert(ASMAtomicReadS32(&pThis->cBusy) > 0); if (ASMAtomicDecS32(&pThis->cBusy) == 0) NdisSetEvent(&pThis->EventIdle); pList = pNextList; } LogFlow(("<==vboxNetAdpWinReturnNetBufferLists\n")); } DECLHIDDEN(VOID) vboxNetAdpWinCancelSend(IN NDIS_HANDLE MiniportAdapterContext, IN PVOID CancelId) { RT_NOREF2(MiniportAdapterContext, CancelId); LogFlow(("==>vboxNetAdpWinCancelSend\n")); Log(("vboxNetAdpWinCancelSend: We should not be here!\n")); LogFlow(("<==vboxNetAdpWinCancelSend\n")); } DECLHIDDEN(BOOLEAN) vboxNetAdpWinCheckForHangEx(IN NDIS_HANDLE MiniportAdapterContext) { RT_NOREF1(MiniportAdapterContext); LogFlow(("==>vboxNetAdpWinCheckForHangEx\n")); LogFlow(("<==vboxNetAdpWinCheckForHangEx return false\n")); return FALSE; } DECLHIDDEN(NDIS_STATUS) vboxNetAdpWinResetEx(IN NDIS_HANDLE MiniportAdapterContext, OUT PBOOLEAN AddressingReset) { RT_NOREF2(MiniportAdapterContext, AddressingReset); NDIS_STATUS Status = NDIS_STATUS_SUCCESS; LogFlow(("==>vboxNetAdpWinResetEx\n")); LogFlow(("<==vboxNetAdpWinResetEx: status=0x%x\n", Status)); return Status; } DECLHIDDEN(VOID) vboxNetAdpWinDevicePnPEventNotify(IN NDIS_HANDLE MiniportAdapterContext, IN PNET_DEVICE_PNP_EVENT NetDevicePnPEvent) { RT_NOREF2(MiniportAdapterContext, NetDevicePnPEvent); LogFlow(("==>vboxNetAdpWinDevicePnPEventNotify\n")); Log(("vboxNetAdpWinDevicePnPEventNotify: PnP event=%d\n", NetDevicePnPEvent->DevicePnPEvent)); LogFlow(("<==vboxNetAdpWinDevicePnPEventNotify\n")); } DECLHIDDEN(VOID) vboxNetAdpWinShutdownEx(IN NDIS_HANDLE MiniportAdapterContext, IN NDIS_SHUTDOWN_ACTION ShutdownAction) { RT_NOREF2(MiniportAdapterContext, ShutdownAction); LogFlow(("==>vboxNetAdpWinShutdownEx\n")); Log(("vboxNetAdpWinShutdownEx: action=%d\n", ShutdownAction)); LogFlow(("<==vboxNetAdpWinShutdownEx\n")); } DECLHIDDEN(VOID) vboxNetAdpWinCancelOidRequest(IN NDIS_HANDLE MiniportAdapterContext, IN PVOID RequestId) { RT_NOREF2(MiniportAdapterContext, RequestId); LogFlow(("==>vboxNetAdpWinCancelOidRequest\n")); Log(("vboxNetAdpWinCancelOidRequest: req id=%p\n", RequestId)); LogFlow(("<==vboxNetAdpWinCancelOidRequest\n")); } DECLHIDDEN(VOID) vboxNetAdpWinUnload(IN PDRIVER_OBJECT DriverObject) { RT_NOREF1(DriverObject); LogFlow(("==>vboxNetAdpWinUnload\n")); PVBOXNETADPGLOBALS pGlobals = &g_VBoxNetAdpGlobals; int rc; NDIS_STATUS Status; PKTHREAD pThread = NULL; /* We are about to disconnect IDC, let's make it clear so the factories will know */ NdisAcquireSpinLock(&pGlobals->Lock); uint32_t enmPrevState = ASMAtomicXchgU32(&g_VBoxNetAdpGlobals.enmIdcState, kVBoxNetAdpWinIdcState_Stopping); NdisReleaseSpinLock(&pGlobals->Lock); Log(("vboxNetAdpWinUnload: IDC state change %s -> Stopping\n", vboxNetAdpWinIdcStateToText(enmPrevState))); switch (enmPrevState) { case kVBoxNetAdpWinIdcState_Disconnected: /* Have not even attempted to connect -- nothing to do. */ break; case kVBoxNetAdpWinIdcState_Stopping: /* Impossible, but another thread is alreading doing StopIdc, bail out */ LogError(("vboxNetAdpWinUnload: called in 'Stopping' state\n")); break; case kVBoxNetAdpWinIdcState_Connecting: /* the worker thread is running, let's wait for it to stop */ Status = ObReferenceObjectByHandle(g_VBoxNetAdpGlobals.hInitIdcThread, THREAD_ALL_ACCESS, NULL, KernelMode, (PVOID*)&pThread, NULL); if (Status == STATUS_SUCCESS) { KeWaitForSingleObject(pThread, Executive, KernelMode, FALSE, NULL); ObDereferenceObject(pThread); } else { LogError(("vboxNetAdpWinStopIdc: ObReferenceObjectByHandle(%p) failed with 0x%x\n", g_VBoxNetAdpGlobals.hInitIdcThread, Status)); } break; case kVBoxNetAdpWinIdcState_Connected: /* the worker succeeded in IDC init and terminated */ /* Make sure nobody uses the trunk factory. Wait half a second if needed. */ if (!NdisWaitEvent(&pGlobals->EventUnloadAllowed, 500)) LogRel(("VBoxNetAdp: unloading driver while trunk factory is in use!\n")); rc = SUPR0IdcComponentDeregisterFactory(&pGlobals->SupDrvIDC, &pGlobals->SupDrvFactory); AssertRC(rc); SUPR0IdcClose(&pGlobals->SupDrvIDC); Log(("vboxNetAdpWinUnload: closed IDC, rc=0x%x\n", rc)); break; } if (pGlobals->hMiniportDriver) NdisMDeregisterMiniportDriver(pGlobals->hMiniportDriver); NdisFreeSpinLock(&pGlobals->Lock); LogFlow(("<==vboxNetAdpWinUnload\n")); RTLogDestroy(RTLogRelSetDefaultInstance(NULL)); RTLogDestroy(RTLogSetDefaultInstance(NULL)); RTR0Term(); } /** * register the miniport driver */ DECLHIDDEN(NDIS_STATUS) vboxNetAdpWinRegister(PDRIVER_OBJECT pDriverObject, PUNICODE_STRING pRegistryPathStr) { NDIS_MINIPORT_DRIVER_CHARACTERISTICS MChars; NdisZeroMemory(&MChars, sizeof (MChars)); MChars.Header.Type = NDIS_OBJECT_TYPE_MINIPORT_DRIVER_CHARACTERISTICS; MChars.Header.Size = sizeof(NDIS_MINIPORT_DRIVER_CHARACTERISTICS); MChars.Header.Revision = NDIS_MINIPORT_DRIVER_CHARACTERISTICS_REVISION_1; MChars.MajorNdisVersion = VBOXNETADP_VERSION_NDIS_MAJOR; MChars.MinorNdisVersion = VBOXNETADP_VERSION_NDIS_MINOR; MChars.MajorDriverVersion = VBOXNETADP_VERSION_MAJOR; MChars.MinorDriverVersion = VBOXNETADP_VERSION_MINOR; MChars.InitializeHandlerEx = vboxNetAdpWinInitializeEx; MChars.HaltHandlerEx = vboxNetAdpWinHaltEx; MChars.UnloadHandler = vboxNetAdpWinUnload; MChars.PauseHandler = vboxNetAdpWinPause; MChars.RestartHandler = vboxNetAdpWinRestart; MChars.OidRequestHandler = vboxNetAdpWinOidRequest; MChars.SendNetBufferListsHandler = vboxNetAdpWinSendNetBufferLists; MChars.ReturnNetBufferListsHandler = vboxNetAdpWinReturnNetBufferLists; MChars.CancelSendHandler = vboxNetAdpWinCancelSend; MChars.CheckForHangHandlerEx = vboxNetAdpWinCheckForHangEx; MChars.ResetHandlerEx = vboxNetAdpWinResetEx; MChars.DevicePnPEventNotifyHandler = vboxNetAdpWinDevicePnPEventNotify; MChars.ShutdownHandlerEx = vboxNetAdpWinShutdownEx; MChars.CancelOidRequestHandler = vboxNetAdpWinCancelOidRequest; NDIS_STATUS Status; g_VBoxNetAdpGlobals.hMiniportDriver = NULL; Log(("vboxNetAdpWinRegister: registering miniport driver...\n")); Status = NdisMRegisterMiniportDriver(pDriverObject, pRegistryPathStr, (NDIS_HANDLE)&g_VBoxNetAdpGlobals, &MChars, &g_VBoxNetAdpGlobals.hMiniportDriver); Assert(Status == STATUS_SUCCESS); if (Status == STATUS_SUCCESS) { Log(("vboxNetAdpWinRegister: successfully registered miniport driver; registering device...\n")); } else { Log(("ERROR! vboxNetAdpWinRegister: failed to register miniport driver, status=0x%x", Status)); } return Status; } RT_C_DECLS_BEGIN NTSTATUS DriverEntry(IN PDRIVER_OBJECT pDriverObject, IN PUNICODE_STRING pRegistryPath); RT_C_DECLS_END NTSTATUS DriverEntry(IN PDRIVER_OBJECT pDriverObject, IN PUNICODE_STRING pRegistryPath) { NDIS_STATUS Status = NDIS_STATUS_SUCCESS; int rc; rc = RTR0Init(0); AssertRC(rc); if (RT_SUCCESS(rc)) { NdisZeroMemory(&g_VBoxNetAdpGlobals, sizeof (g_VBoxNetAdpGlobals)); RTListInit(&g_VBoxNetAdpGlobals.ListOfAdapters); NdisAllocateSpinLock(&g_VBoxNetAdpGlobals.Lock); NdisInitializeEvent(&g_VBoxNetAdpGlobals.EventUnloadAllowed); //g_VBoxNetAdpGlobals.PMCaps.WakeUpCapabilities.Flags = NDIS_DEVICE_WAKE_UP_ENABLE; g_VBoxNetAdpGlobals.PMCaps.WakeUpCapabilities.MinMagicPacketWakeUp = NdisDeviceStateUnspecified; g_VBoxNetAdpGlobals.PMCaps.WakeUpCapabilities.MinPatternWakeUp = NdisDeviceStateUnspecified; /* Initialize SupDrv interface */ g_VBoxNetAdpGlobals.SupDrvFactory.pfnQueryFactoryInterface = vboxNetAdpWinQueryFactoryInterface; memcpy(g_VBoxNetAdpGlobals.SupDrvFactory.szName, "VBoxNetAdp", sizeof("VBoxNetAdp")); /* Initialize trunk factory interface */ g_VBoxNetAdpGlobals.TrunkFactory.pfnRelease = vboxNetAdpWinFactoryRelease; g_VBoxNetAdpGlobals.TrunkFactory.pfnCreateAndConnect = vboxNetAdpWinFactoryCreateAndConnect; rc = vboxNetAdpWinStartInitIdcThread(&g_VBoxNetAdpGlobals); if (RT_SUCCESS(rc)) { Status = vboxNetAdpWinRegister(pDriverObject, pRegistryPath); Assert(Status == STATUS_SUCCESS); if (Status == NDIS_STATUS_SUCCESS) { Log(("NETADP: started successfully\n")); return STATUS_SUCCESS; } } else Status = NDIS_STATUS_FAILURE; NdisFreeSpinLock(&g_VBoxNetAdpGlobals.Lock); RTLogDestroy(RTLogRelSetDefaultInstance(NULL)); RTLogDestroy(RTLogSetDefaultInstance(NULL)); RTR0Term(); } else { Status = NDIS_STATUS_FAILURE; } return Status; }