/*++ Copyright (c) 1990-1995 Microsoft Corporation Module Name: Miniport.c Abstract: This file contains the procedures that makeup most of the NDIS 3.1 Miniport interface. Author: Tony Bell (TonyBe) June 06, 1995 Environment: Kernel Mode Revision History: TonyBe 06/06/95 Created --*/ #include "wan.h" #define __FILE_SIG__ MINIPORT_FILESIG // // Local function prototypes // // // End local function prototypes // VOID MPHalt( IN NDIS_HANDLE MiniportAdapterContext ) /*++ Routine Name: MPHalt Routine Description: This routine free's all resources for the adapter. Arguments: MiniportAdapterContext - AdapterContext that is given to the wrapper in NdisMSetAttributes call. Is our MiniportCB. Return Values: None --*/ { PMINIPORTCB MiniportCB = (PMINIPORTCB)MiniportAdapterContext; NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPHalt: Enter")); NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MiniportCB: 0x%x", MiniportCB)); // // Make sure that there are no ProtocolCB's // running over this miniport! If so we // need to do a linedown to them. // NdisAcquireSpinLock(&MiniportCB->Lock); MiniportCB->Flags |= HALT_IN_PROGRESS; while (!IsListEmpty(&MiniportCB->ProtocolCBList)) { PLIST_ENTRY le; PPROTOCOLCB ProtocolCB; PBUNDLECB BundleCB; ProtocolState OldState; le = MiniportCB->ProtocolCBList.Flink; ProtocolCB =(PPROTOCOLCB) CONTAINING_RECORD(le, PROTOCOLCB, MiniportLinkage); NdisReleaseSpinLock(&MiniportCB->Lock); BundleCB = ProtocolCB->BundleCB; AcquireBundleLock(BundleCB); OldState = ProtocolCB->State; ProtocolCB->State = PROTOCOL_UNROUTING; BundleCB->SendMask &= ~ProtocolCB->SendMaskBit; // // Flush the protocol packet queues. This could cause us // to complete frames to ndis out of order. Ndis should // handle this. // FlushProtocolPacketQueue(ProtocolCB); // // If the protocols refcount goes to zero // we need to do a linedown and cleanup // if ((--ProtocolCB->RefCount == 0) && (OldState == PROTOCOL_ROUTED)) { DoLineDownToProtocol(ProtocolCB); // // Returns with bundlecb->lock released // RemoveProtocolCBFromBundle(ProtocolCB); ReleaseBundleLock(BundleCB); NdisWanFreeProtocolCB(ProtocolCB); } else { ReleaseBundleLock(BundleCB); NdisWanWaitForSyncEvent(&MiniportCB->HaltEvent); NdisWanClearSyncEvent(&MiniportCB->HaltEvent); } NdisAcquireSpinLock(&MiniportCB->Lock); } NdisReleaseSpinLock(&MiniportCB->Lock); DEREF_MINIPORTCB(MiniportCB); NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPHalt: Exit")); } NDIS_STATUS MPInitialize( OUT PNDIS_STATUS OpenErrorStatus, OUT PUINT SelectedMediumIndex, IN PNDIS_MEDIUM MediumArray, IN UINT MediumArraySize, IN NDIS_HANDLE MiniportAdapterHandle, IN NDIS_HANDLE WrapperConfigurationContext ) /*++ Routine Name: MPInitialize Routine Description: This routine is called after NdisWan registers itself as a Miniport driver. It is responsible for installing NdisWan as a Miniport driver, creating adapter control blocks for each adapter NdisWan exposes (should only be 1), and initializing all adapter specific variables Arguments: OpenErrorStatus - Returns information about the error if this function returns NDIS_STATUS_OPEN_ERROR. Used for TokenRing. SelectedMediumIndex - An index into the MediumArray that specifies the medium type of this driver. Should be WAN or 802.3 MediumArray - An array of medium types supported by the NDIS library MediumArraySize - Size of the medium array MiniportAdapterHandle - Handle assigned by the NDIS library that defines this miniport driver. Used as handle in subsequent calls to the NDIS library. WrapperConfigurationContext - Handle used to read configuration information from the registry Return Values: NDIS_STATUS_ADAPTER_NOT_FOUND NDIS_STATUS_FAILURE NDIS_STATUS_NOT_ACCEPTED NDIS_STATUS_OPEN_ERROR NDIS_STATUS_RESOURCES NDIS_STATUS_UNSUPPORTED_MEDIA --*/ { NDIS_STATUS Status = NDIS_STATUS_SUCCESS; PMINIPORTCB MiniportCB; UINT Index; NDIS_HANDLE ConfigHandle; ULONG NetworkAddressLength; #ifdef NT LARGE_INTEGER TickCount, SystemTime; #endif NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPInitialize: Enter")); // // We have to be type 802.3 to the ndis wrapper, but the // wrapper will expose us to the transports as type wan. // for (Index = 0; Index < MediumArraySize; Index++) { if (MediumArray[Index] == NdisMedium802_3) { break; } } // // We don't have a match so we are screwed // if (Index == MediumArraySize) { return (NDIS_STATUS_UNSUPPORTED_MEDIA); } *SelectedMediumIndex = Index; // // Allocate and initialize miniport adapter structure // #ifdef MINIPORT_NAME MiniportCB = NdisWanAllocateMiniportCB(&((PNDIS_MINIPORT_BLOCK)(MiniportAdapterHandle))->MiniportName); #else MiniportCB = NdisWanAllocateMiniportCB(NULL); #endif if (MiniportCB == NULL) { NdisWanDbgOut(DBG_CRITICAL_ERROR, DBG_MINIPORT, ("Error Creating MiniportCB!")); return (NDIS_STATUS_FAILURE); } #ifndef MY_DEVICE_OBJECT if (NdisWanCB.pDeviceObject == NULL) { PDRIVER_DISPATCH DispatchTable[IRP_MJ_MAXIMUM_FUNCTION+1]; NDIS_STRING SymbolicName = NDIS_STRING_CONST("\\DosDevices\\NdisWan"); NDIS_STRING Name = NDIS_STRING_CONST("\\Device\\NdisWan"); ULONG i; NTSTATUS Status; for (i = 0; i <= IRP_MJ_MAXIMUM_FUNCTION; i++) { DispatchTable[i] = NdisWanIrpStub; } DispatchTable[IRP_MJ_CREATE] = NdisWanCreate; DispatchTable[IRP_MJ_DEVICE_CONTROL] = NdisWanIoctl; DispatchTable[IRP_MJ_CLEANUP] = NdisWanCleanup; Status = NdisMRegisterDevice(NdisWanCB.NdisWrapperHandle, &Name, &SymbolicName, DispatchTable, &NdisWanCB.pDeviceObject, &NdisWanCB.DeviceHandle); if (Status == STATUS_SUCCESS) { NdisWanCB.pDeviceObject->Flags &= ~DO_DEVICE_INITIALIZING; } else { NdisWanCB.pDeviceObject = NULL; } } #endif NdisMSetAttributesEx(MiniportAdapterHandle, MiniportCB, (UINT)-1, // // KyleB says that the following two defines are redundant if // the miniport is deserialized. // // NDIS_ATTRIBUTE_IGNORE_PACKET_TIMEOUT | // NDIS_ATTRIBUTE_INTERMEDIATE_DRIVER | NDIS_ATTRIBUTE_IGNORE_REQUEST_TIMEOUT | NDIS_ATTRIBUTE_DESERIALIZE | NDIS_ATTRIBUTE_NO_HALT_ON_SUSPEND, NdisInterfaceInternal); MiniportCB->MediumType = MediumArray[Index]; MiniportCB->RefCount = 0; MiniportCB->MiniportHandle = MiniportAdapterHandle; // // Read per miniport instance data // NdisOpenConfiguration(&Status, &ConfigHandle, WrapperConfigurationContext); if (Status == NDIS_STATUS_SUCCESS) { NdisReadNetworkAddress(&Status, (PVOID*)&(MiniportCB->NetworkAddress), &NetworkAddressLength, ConfigHandle); NdisCloseConfiguration(ConfigHandle); if (Status != NDIS_STATUS_SUCCESS || NetworkAddressLength != ETH_LENGTH_OF_ADDRESS) { goto BuildAddress; } } else { BuildAddress: #ifdef NT KeQueryTickCount(&TickCount); KeQuerySystemTime(&SystemTime); MiniportCB->NetworkAddress[0] = (UCHAR)((TickCount.LowPart >> 16) ^ (SystemTime.LowPart >> 16)) & 0xFE; MiniportCB->NetworkAddress[1] = (UCHAR)((TickCount.LowPart >> 8) ^ (SystemTime.LowPart >> 8)); // // The following 4 bytes will be filled in at lineup time // MiniportCB->NetworkAddress[2] = ' '; MiniportCB->NetworkAddress[3] = 'R'; MiniportCB->NetworkAddress[4] = 'A'; MiniportCB->NetworkAddress[5] = 'S'; #endif } // // Register our connection manager address family for this // miniport // { CO_ADDRESS_FAMILY CoAddressFamily; NDIS_CALL_MANAGER_CHARACTERISTICS CmCharacteristics; NdisZeroMemory(&CmCharacteristics, sizeof(NDIS_CALL_MANAGER_CHARACTERISTICS)); CoAddressFamily.AddressFamily = CO_ADDRESS_FAMILY_PPP; CoAddressFamily.MajorVersion = NDISWAN_MAJOR_VERSION; CoAddressFamily.MinorVersion = NDISWAN_MINOR_VERSION; CmCharacteristics.MajorVersion = NDISWAN_MAJOR_VERSION; CmCharacteristics.MinorVersion = NDISWAN_MINOR_VERSION; CmCharacteristics.CmCreateVcHandler = CmCreateVc; CmCharacteristics.CmDeleteVcHandler = CmDeleteVc; CmCharacteristics.CmOpenAfHandler = CmOpenAf; CmCharacteristics.CmCloseAfHandler = CmCloseAf; CmCharacteristics.CmRegisterSapHandler = CmRegisterSap; CmCharacteristics.CmDeregisterSapHandler = CmDeregisterSap; CmCharacteristics.CmMakeCallHandler = CmMakeCall; CmCharacteristics.CmCloseCallHandler = CmCloseCall; CmCharacteristics.CmIncomingCallCompleteHandler = CmIncomingCallComplete; CmCharacteristics.CmAddPartyHandler = NULL; CmCharacteristics.CmDropPartyHandler = NULL; CmCharacteristics.CmActivateVcCompleteHandler = CmActivateVcComplete; CmCharacteristics.CmDeactivateVcCompleteHandler = CmDeactivateVcComplete; CmCharacteristics.CmModifyCallQoSHandler = CmModifyCallQoS; CmCharacteristics.CmRequestHandler = CmRequest; CmCharacteristics.CmRequestCompleteHandler = ProtoCoRequestComplete; NdisMCmRegisterAddressFamily(MiniportCB->MiniportHandle, &CoAddressFamily, &CmCharacteristics, sizeof(NDIS_CALL_MANAGER_CHARACTERISTICS)); } NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPInitialize: Exit")); REF_MINIPORTCB(MiniportCB); return (NDIS_STATUS_SUCCESS); } #if 0 NDIS_STATUS MPQueryInformation( IN NDIS_HANDLE MiniportAdapterContext, IN NDIS_OID Oid, IN PVOID InformationBuffer, IN ULONG InformationBufferLength, OUT PULONG BytesWritten, OUT PULONG BytesNeeded ) /*++ Routine Name: Routine Description: Arguments: Return Values: --*/ { NDIS_STATUS Status = NDIS_STATUS_SUCCESS; PMINIPORTCB MiniportCB = (PMINIPORTCB)MiniportAdapterContext; NDIS_REQUEST NdisRequest; NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPQueryInformation: Enter Oid: 0x%x", Oid)); NdisWanInterlockedInc(&MiniportCB->RefCount); NdisRequest.RequestType = NdisRequestQueryInformation; NdisRequest.DATA.QUERY_INFORMATION.Oid = Oid; NdisRequest.DATA.QUERY_INFORMATION.InformationBuffer = InformationBuffer; NdisRequest.DATA.QUERY_INFORMATION.InformationBufferLength = InformationBufferLength; NdisRequest.DATA.QUERY_INFORMATION.BytesWritten = *BytesWritten; NdisRequest.DATA.QUERY_INFORMATION.BytesNeeded = *BytesNeeded; Status = NdisWanOidProc(MiniportCB, &NdisRequest); *BytesWritten = NdisRequest.DATA.QUERY_INFORMATION.BytesWritten; *BytesNeeded = NdisRequest.DATA.QUERY_INFORMATION.BytesNeeded; NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPQueryInformation: Exit Status: %x", Status)); NdisWanInterlockedDec(&MiniportCB->RefCount); return (Status); } #endif NDIS_STATUS MPReconfigure( OUT PNDIS_STATUS OpenErrorStatus, IN NDIS_HANDLE MiniportAdapterContext, IN NDIS_HANDLE WrapperConfigurationContext ) /*++ Routine Name: Routine Description: Arguments: Return Values: --*/ { NDIS_STATUS Status = NDIS_STATUS_SUCCESS; PMINIPORTCB MiniportCB = (PMINIPORTCB)MiniportAdapterContext; NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPReconfigure: Enter")); NdisWanInterlockedInc(&MiniportCB->RefCount); NdisWanInterlockedDec(&MiniportCB->RefCount); NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPReconfigure: Exit")); return (Status); } NDIS_STATUS MPReset( OUT PBOOLEAN AddressingReset, IN NDIS_HANDLE MiniportAdapterContext ) /*++ Routine Name: Routine Description: Arguments: Return Values: --*/ { NDIS_STATUS Status = NDIS_STATUS_SUCCESS; PMINIPORTCB MiniportCB = (PMINIPORTCB)MiniportAdapterContext; NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPReset: Enter")); *AddressingReset = FALSE; NdisWanInterlockedInc(&MiniportCB->RefCount); NdisAcquireSpinLock(&MiniportCB->Lock); MiniportCB->Flags &= ~ASK_FOR_RESET; NdisReleaseSpinLock(&MiniportCB->Lock); NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPReset: Exit")); NdisWanInterlockedDec(&MiniportCB->RefCount); return (Status); } #if 0 NDIS_STATUS MPSetInformation( IN NDIS_HANDLE MiniportAdapterContext, IN NDIS_OID Oid, IN PVOID InformationBuffer, IN ULONG InformationBufferLength, OUT PULONG BytesWritten, OUT PULONG BytesNeeded ) /*++ Routine Name: Routine Description: Arguments: Return Values: --*/ { NDIS_STATUS Status = NDIS_STATUS_SUCCESS; PMINIPORTCB MiniportCB = (PMINIPORTCB)MiniportAdapterContext; NDIS_REQUEST NdisRequest; NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPSetInformation: Enter Oid: 0x%x", Oid)); NdisWanInterlockedInc(&MiniportCB->RefCount); NdisRequest.RequestType = NdisRequestSetInformation; NdisRequest.DATA.SET_INFORMATION.Oid = Oid; NdisRequest.DATA.SET_INFORMATION.InformationBuffer = InformationBuffer; NdisRequest.DATA.SET_INFORMATION.InformationBufferLength = InformationBufferLength; NdisRequest.DATA.SET_INFORMATION.BytesRead = *BytesWritten; NdisRequest.DATA.SET_INFORMATION.BytesNeeded = *BytesNeeded; Status = NdisWanOidProc(MiniportCB, &NdisRequest); *BytesWritten = NdisRequest.DATA.SET_INFORMATION.BytesRead; *BytesNeeded = NdisRequest.DATA.SET_INFORMATION.BytesNeeded; NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPSetInformation: Exit")); NdisWanInterlockedDec(&MiniportCB->RefCount); return (Status); } #endif VOID MPReturnPacket( IN NDIS_HANDLE MiniportAdapterContext, IN PNDIS_PACKET Packet ) { PNDISWAN_PROTOCOL_RESERVED pres; PMINIPORTCB MiniportCB; PNDIS_BUFFER NdisBuffer; PRECV_DESC RecvDesc; NdisWanDbgOut(DBG_TRACE, DBG_RECEIVE, ("MPReturnPacket: Enter Packet %p", Packet)); pres = PPROTOCOL_RESERVED_FROM_NDIS(Packet); MiniportCB = (PMINIPORTCB)MiniportAdapterContext; RecvDesc = pres->RecvDesc; REMOVE_DBG_RECV(PacketTypeNdis, MiniportCB, Packet); NdisWanFreeRecvDesc(RecvDesc); NdisWanDbgOut(DBG_TRACE, DBG_RECEIVE, ("MPReturnPacket: Exit")); } VOID MPSendPackets( IN NDIS_HANDLE MiniportAdapterContext, IN PPNDIS_PACKET PacketArray, IN UINT NumberOfPackets ) { ULONG i; PMINIPORTCB MiniportCB = (PMINIPORTCB)MiniportAdapterContext; NdisWanDbgOut(DBG_TRACE, DBG_SEND, ("MPSendPackets: Enter")); for (i = 0; i < NumberOfPackets; i++) { PNDIS_PACKET NdisPacket = PacketArray[i]; PMINIPORT_RESERVED_FROM_NDIS(NdisPacket)->CmVcCB = NULL; NdisWanQueueSend(MiniportCB, NdisPacket); } NdisWanDbgOut(DBG_TRACE, DBG_SEND, ("MPSendPackets: Exit")); } NDIS_STATUS MPCoCreateVc( IN NDIS_HANDLE MiniportAdapterContext, IN NDIS_HANDLE NdisVcHandle, OUT PNDIS_HANDLE MiniportVcContext ) { NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPCoCreateVc: Enter")); NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPCoCreateVc: Exit")); return (NDIS_STATUS_SUCCESS); } NDIS_STATUS MPCoDeleteVc( IN NDIS_HANDLE MiniportVcContext ) { NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPCoDeleteVc: Enter")); NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPCoDeleteVc: Exit")); return (NDIS_STATUS_SUCCESS); } NDIS_STATUS MPCoActivateVc( IN NDIS_HANDLE MiniportVcContext, IN OUT PCO_CALL_PARAMETERS CallParameters ) { NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPCoActivateVc: Enter")); NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPCoActivateVc: Exit")); return (NDIS_STATUS_SUCCESS); } NDIS_STATUS MPCoDeactivateVc( IN NDIS_HANDLE MiniportVcContext ) { NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPCoDeactivateVc: Enter")); NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPCoDeactivateVc: Exit")); return (NDIS_STATUS_SUCCESS); } VOID MPCoSendPackets( IN NDIS_HANDLE MiniportVcContext, IN PPNDIS_PACKET PacketArray, IN UINT NumberOfPackets ) { ULONG i; PCM_VCCB CmVcCB = (PCM_VCCB)MiniportVcContext; PCM_AFSAPCB AfSapCB = CmVcCB->AfSapCB; PMINIPORTCB MiniportCB = AfSapCB->MiniportCB; NdisWanDbgOut(DBG_TRACE, DBG_SEND, ("MPCoSendPackets: Enter")); if (CmVcCB->State != CMVC_ACTIVE) { for (i = 0; i < NumberOfPackets; i++) { PNDIS_PACKET NdisPacket = PacketArray[i]; NdisMCoSendComplete(NDIS_STATUS_FAILURE, CmVcCB->NdisVcHandle, NdisPacket); } return; } for (i = 0; i < NumberOfPackets; i++) { PNDIS_PACKET NdisPacket = PacketArray[i]; REF_CMVCCB(CmVcCB); PMINIPORT_RESERVED_FROM_NDIS(NdisPacket)->CmVcCB = CmVcCB; NdisWanQueueSend(MiniportCB, NdisPacket); } NdisWanDbgOut(DBG_TRACE, DBG_SEND, ("MPCoSendPackets: Exit")); } NDIS_STATUS MPCoRequest( IN NDIS_HANDLE MiniportAdapterContext, IN NDIS_HANDLE MiniportVcContext OPTIONAL, IN OUT PNDIS_REQUEST NdisRequest ) { NDIS_STATUS Status; PCM_VCCB CmVcCB; NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPCoRequest: Enter Oid: 0x%x", NdisRequest->DATA.QUERY_INFORMATION.Oid)); CmVcCB = (PCM_VCCB)MiniportVcContext; Status = NdisWanCoOidProc((PMINIPORTCB)MiniportAdapterContext, CmVcCB, NdisRequest); NdisWanDbgOut(DBG_TRACE, DBG_MINIPORT, ("MPCoRequest: Exit Status: 0x%x", Status)); return (Status); }