Ejemplos de NdisMMapIoSpace en C++ (Cpp)

Ejemplo n.º 1

Archivo: io.c Proyecto: GYGit/reactos

/*
 * @implemented
 */
VOID
EXPORT
NdisMapIoSpace(
    OUT PNDIS_STATUS            Status,
    OUT PVOID                   *VirtualAddress,
    IN  NDIS_HANDLE             NdisAdapterHandle,
    IN  NDIS_PHYSICAL_ADDRESS   PhysicalAddress,
    IN  UINT                    Length)
/*
 * FUNCTION:
 * ARGUMENTS:
 * NOTES:
 *    NDIS 4.0
 */
{
    *Status = NdisMMapIoSpace(VirtualAddress,
                              NdisAdapterHandle,
                              PhysicalAddress,
                              Length);
}

Ejemplo n.º 2

Archivo: ar6000_cf.c Proyecto: NemProjects/WLAN

NDIS_STATUS
busDriverInit (NDIS_HANDLE miniportHandle, 
               NDIS_HANDLE wrapperConfigurationContext, 
               A_UINT32   sysIntr,
               BUS_DRIVER_HANDLE *busDriverHandle)
{
    PNDIS_RESOURCE_LIST pNdisResourceList;
    PCM_PARTIAL_RESOURCE_DESCRIPTOR pResourceDesc;
    NDIS_PHYSICAL_ADDRESS           physicalAddress;
    A_UINT32						bufferSize;
    A_UINT32						dwResourceCount;
    NDIS_STATUS                     status=NDIS_STATUS_FAILURE;
    A_UINT32						addressSpace;

    *busDriverHandle = NULL;
    
    HIF_DEBUG_PRINTF(ATH_LOG_TRC,
                        "ar6000CFBusInit: Enter \n");

    cfDevice = A_MALLOC(sizeof(CF_DEVICE));
    if (cfDevice == NULL) {
        HIF_DEBUG_PRINTF(ATH_LOG_ERR,
            "ar6000CFBusInit: Allocate Memory for CF_DEVICE failed\n");
        return status; 
	}
    A_MEMZERO(cfDevice,sizeof(CF_DEVICE));

    cfDevice->miniportHandle = miniportHandle;
    cfDevice->wrapperConfigurationContext=wrapperConfigurationContext;

	pNdisResourceList = NULL;
	bufferSize = 0;

	//	First call is just to determine buffer size
    NdisMQueryAdapterResources(
            &status,
            wrapperConfigurationContext,
            pNdisResourceList,
            &bufferSize);

    pNdisResourceList = A_MALLOC(bufferSize);

    if (pNdisResourceList == NULL) {
        HIF_DEBUG_PRINTF(ATH_LOG_ERR, 
            "ar6000CFBusInit: AllocateMemory for NDIS_RESOURCE_LIST failed\n");
        A_FREE(cfDevice);
        return NDIS_STATUS_FAILURE;
    }

    NdisMQueryAdapterResources(
            &status,
            wrapperConfigurationContext,
            pNdisResourceList,
            &bufferSize);

    if (status != NDIS_STATUS_SUCCESS) {
        HIF_DEBUG_PRINTF(ATH_LOG_ERR, 
            "ar6000CFBusInit: NdisMQueryAdapterResources failed \n");
        A_FREE(pNdisResourceList);
        A_FREE(cfDevice);
        return status; 
    }

    /* Search for I/O address and IRQ in assigned resources. */
    
    dwResourceCount = pNdisResourceList->Count;
    pResourceDesc = &(pNdisResourceList->PartialDescriptors[0]);

    while (dwResourceCount--) {
        switch(pResourceDesc->Type) {
            case CmResourceTypeInterrupt:
                cfDevice->interruptNumber = 
                    pResourceDesc->u.Interrupt.Vector;
                HIF_DEBUG_PRINTF(ATH_LOG_INF,
                    "ar6000CFBusInit: Interrupt Number = %u\n", cfDevice->interruptNumber);
                break;

            case CmResourceTypeMemory:
                cfDevice->memLen = pResourceDesc->u.Memory.Length;
                cfDevice->deviceMemBase = pResourceDesc->u.Memory.Start.LowPart;
                HIF_DEBUG_PRINTF(ATH_LOG_INF,
				    "ar6000CFBusInit: Physical Address = %x Length = %x\n", 
                        cfDevice->deviceMemBase,cfDevice->memLen);
                break;
        
            default:
                HIF_DEBUG_PRINTF(ATH_LOG_ERR,
                    "ar6000CFBusInit: Unexpected assigned resource type %u\n", 
                    pResourceDesc->Type);
                break;
        }
        pResourceDesc++;
    }

    A_FREE(pNdisResourceList);

    cfDevice->sysIntr =  sysIntr;
    HIF_DEBUG_PRINTF(ATH_LOG_INF,
        "ar6000CFBusInit: sysIntr = %u\n", cfDevice->sysIntr);
    
    NdisSetPhysicalAddressLow(physicalAddress, cfDevice->deviceMemBase);
    NdisSetPhysicalAddressHigh(physicalAddress, 0);

    cfDevice->ndisMapped = 1;
    status = NdisMMapIoSpace((PVOID *)&cfDevice->mappedMemBase,
                            cfDevice->miniportHandle,
                            physicalAddress,
                            cfDevice->memLen);
    if (status != NDIS_STATUS_SUCCESS) {
		HIF_DEBUG_PRINTF(ATH_LOG_ERR,
				"ar6000CFBusInit: NdisMmapIoSpace failed.. Trying MmMapIoSpace \n");
        /* NdisMmapIoSpace fails sometimes in WINCE, type MmMapIoSpace */
	    cfDevice->mappedMemBase = (A_UINT32) MmMapIoSpace(physicalAddress,
                                                          cfDevice->memLen,
                                                          FALSE);
        if (!cfDevice->mappedMemBase) {
            HIF_DEBUG_PRINTF(ATH_LOG_ERR,
                "ar6000CFBusInit: MmMapIoSpace failed \n");
            A_FREE(cfDevice);
            return NDIS_STATUS_FAILURE;
        } 
        cfDevice->ndisMapped = 0;
    } 

	 addressSpace = 0;
#ifdef SHARED_INTERRUPTS
#if (UNDER_CE==600) 
	giisrMappedAddress = (PVOID)cfDevice->mappedMemBase;
#else
    if (!TransBusAddrToStatic(PCIBus,
						 0,
						 physicalAddress,
						 cfDevice->memLen,
						 &addressSpace,
						 &giisrMappedAddress)) 
    {
        HIF_DEBUG_PRINTF(ATH_LOG_ERR,
                "ar6000CFBusInit : TransBusAddrToStatic failed \n");
        A_FREE(cfDevice);
        return NDIS_STATUS_FAILURE;
    }
#endif //UNDER_CE
#endif //SHARED_INTERRUPTS

    *busDriverHandle = (BUS_DRIVER_HANDLE)cfDevice;
    
    HIF_DEBUG_PRINTF(ATH_LOG_TRC,
                        "ar6000CFBusInit: Exit \n");
    return NDIS_STATUS_SUCCESS;
}

Ejemplo n.º 3

Archivo: xennet5.c Proyecto: stilltracy/LICMX-Win

// Called at <= DISPATCH_LEVEL
static NDIS_STATUS
XenNet_Init(
  OUT PNDIS_STATUS OpenErrorStatus,
  OUT PUINT SelectedMediumIndex,
  IN PNDIS_MEDIUM MediumArray,
  IN UINT MediumArraySize,
  IN NDIS_HANDLE MiniportAdapterHandle,
  IN NDIS_HANDLE WrapperConfigurationContext
  )
{
  NDIS_STATUS status;
  BOOLEAN medium_found = FALSE;
  struct xennet_info *xi = NULL;
  UINT nrl_length;
  PNDIS_RESOURCE_LIST nrl;
  PCM_PARTIAL_RESOURCE_DESCRIPTOR prd;
  KIRQL irq_level = 0;
  ULONG irq_vector = 0;
  ULONG irq_mode = 0;
  NDIS_HANDLE config_handle;
  NDIS_STRING config_param_name;
  PNDIS_CONFIGURATION_PARAMETER config_param;
  ULONG i;
  PUCHAR ptr;
  UCHAR type;
  PCHAR setting, value;
  ULONG length;
  //CHAR buf[128];
  PVOID network_address;
  UINT network_address_length;
  BOOLEAN qemu_hide_filter = FALSE;
  ULONG qemu_hide_flags_value = 0;
  
  UNREFERENCED_PARAMETER(OpenErrorStatus);

  FUNCTION_ENTER();

  KdPrint((__DRIVER_NAME "     IRQL = %d\n", KeGetCurrentIrql()));

  /* deal with medium stuff */
  for (i = 0; i < MediumArraySize; i++)
  {
    if (MediumArray[i] == NdisMedium802_3)
    {
      medium_found = TRUE;
      break;
    }
  }
  if (!medium_found)
  {
    KdPrint(("NIC_MEDIA_TYPE not in MediumArray\n"));
    return NDIS_STATUS_UNSUPPORTED_MEDIA;
  }
  *SelectedMediumIndex = i;

  /* Alloc memory for adapter private info */
  status = NdisAllocateMemoryWithTag((PVOID)&xi, sizeof(*xi), XENNET_POOL_TAG);
  if (!NT_SUCCESS(status))
  {
    KdPrint(("NdisAllocateMemoryWithTag failed with 0x%x\n", status));
    status = NDIS_STATUS_RESOURCES;
    goto err;
  }
  RtlZeroMemory(xi, sizeof(*xi));
  xi->adapter_handle = MiniportAdapterHandle;
  xi->rx_target     = RX_DFL_MIN_TARGET;
  xi->rx_min_target = RX_DFL_MIN_TARGET;
  xi->rx_max_target = RX_MAX_TARGET;
  xi->inactive      = TRUE;
  NdisMSetAttributesEx(xi->adapter_handle, (NDIS_HANDLE) xi, 0, 0 /* the last zero is to give the next | something to | with */
#ifdef NDIS51_MINIPORT
    |NDIS_ATTRIBUTE_USES_SAFE_BUFFER_APIS
#endif
    |NDIS_ATTRIBUTE_DESERIALIZE
    |NDIS_ATTRIBUTE_SURPRISE_REMOVE_OK,
    NdisInterfaceInternal); /* PnpBus option doesn't exist... */
  xi->multicast_list_size = 0;
  xi->current_lookahead = MIN_LOOKAHEAD_LENGTH;

  nrl_length = 0;
  NdisMQueryAdapterResources(&status, WrapperConfigurationContext,
    NULL, (PUINT)&nrl_length);
  KdPrint((__DRIVER_NAME "     nrl_length = %d\n", nrl_length));
  status = NdisAllocateMemoryWithTag((PVOID)&nrl, nrl_length, XENNET_POOL_TAG);
  if (status != NDIS_STATUS_SUCCESS)
  {
    KdPrint((__DRIVER_NAME "     Could not get allocate memory for Adapter Resources 0x%x\n", status));
    return NDIS_STATUS_RESOURCES;
  }
  NdisMQueryAdapterResources(&status, WrapperConfigurationContext,
    nrl, (PUINT)&nrl_length);
  if (status != NDIS_STATUS_SUCCESS)
  {
    KdPrint((__DRIVER_NAME "     Could not get Adapter Resources 0x%x\n", status));
    return NDIS_STATUS_RESOURCES;
  }
  xi->event_channel = 0;
  xi->config_csum = 1;
  xi->config_csum_rx_check = 1;
  xi->config_sg = 1;
  xi->config_gso = 61440;
  xi->config_page = NULL;
  xi->config_rx_interrupt_moderation = 0;
  
  for (i = 0; i < nrl->Count; i++)
  {
    prd = &nrl->PartialDescriptors[i];

    switch(prd->Type)
    {
    case CmResourceTypeInterrupt:
      irq_vector = prd->u.Interrupt.Vector;
      irq_level = (KIRQL)prd->u.Interrupt.Level;
      irq_mode = (prd->Flags & CM_RESOURCE_INTERRUPT_LATCHED)?NdisInterruptLatched:NdisInterruptLevelSensitive;
      KdPrint((__DRIVER_NAME "     irq_vector = %03x, irq_level = %03x, irq_mode = %s\n", irq_vector, irq_level,
        (irq_mode == NdisInterruptLatched)?"NdisInterruptLatched":"NdisInterruptLevelSensitive"));
      break;
    case CmResourceTypeMemory:
      if (xi->config_page)
      {
        KdPrint(("More than one memory range\n"));
        return NDIS_STATUS_RESOURCES;
      }
      else
      {
        status = NdisMMapIoSpace(&xi->config_page, MiniportAdapterHandle, prd->u.Memory.Start, prd->u.Memory.Length);
        if (!NT_SUCCESS(status))
        {
          KdPrint(("NdisMMapIoSpace failed with 0x%x\n", status));
          NdisFreeMemory(nrl, nrl_length, 0);
          return NDIS_STATUS_RESOURCES;
        }
      }
      break;
    }
  }
  NdisFreeMemory(nrl, nrl_length, 0);
  if (!xi->config_page)
  {
    KdPrint(("No config page given\n"));
    return NDIS_STATUS_RESOURCES;
  }

  KeInitializeDpc(&xi->suspend_dpc, XenNet_SuspendResume, xi);
  KeInitializeSpinLock(&xi->resume_lock);

  KeInitializeDpc(&xi->rxtx_dpc, XenNet_RxTxDpc, xi);
  KeSetTargetProcessorDpc(&xi->rxtx_dpc, 0);
  KeSetImportanceDpc(&xi->rxtx_dpc, HighImportance);

  NdisMGetDeviceProperty(MiniportAdapterHandle, &xi->pdo, &xi->fdo,
    &xi->lower_do, NULL, NULL);
  xi->packet_filter = 0;

  status = IoGetDeviceProperty(xi->pdo, DevicePropertyDeviceDescription,
    NAME_SIZE, xi->dev_desc, &length);
  if (!NT_SUCCESS(status))
  {
    KdPrint(("IoGetDeviceProperty failed with 0x%x\n", status));
    status = NDIS_STATUS_FAILURE;
    goto err;
  }

  ptr = xi->config_page;
  while((type = GET_XEN_INIT_RSP(&ptr, (PVOID)&setting, (PVOID)&value, (PVOID)&value)) != XEN_INIT_TYPE_END)
  {
    switch(type)
    {
    case XEN_INIT_TYPE_VECTORS:
      KdPrint((__DRIVER_NAME "     XEN_INIT_TYPE_VECTORS\n"));
      if (((PXENPCI_VECTORS)value)->length != sizeof(XENPCI_VECTORS) ||
        ((PXENPCI_VECTORS)value)->magic != XEN_DATA_MAGIC)
      {
        KdPrint((__DRIVER_NAME "     vectors mismatch (magic = %08x, length = %d)\n",
          ((PXENPCI_VECTORS)value)->magic, ((PXENPCI_VECTORS)value)->length));
        FUNCTION_EXIT();
        return NDIS_STATUS_FAILURE;
      }
      else
        memcpy(&xi->vectors, value, sizeof(XENPCI_VECTORS));
      break;
    case XEN_INIT_TYPE_STATE_PTR:
      KdPrint((__DRIVER_NAME "     XEN_INIT_TYPE_DEVICE_STATE - %p\n", PtrToUlong(value)));
      xi->device_state = (PXENPCI_DEVICE_STATE)value;
      break;
    case XEN_INIT_TYPE_QEMU_HIDE_FLAGS:
      qemu_hide_flags_value = PtrToUlong(value);
      break;
    case XEN_INIT_TYPE_QEMU_HIDE_FILTER:
      qemu_hide_filter = TRUE;
      break;
    default:
      KdPrint((__DRIVER_NAME "     XEN_INIT_TYPE_%d\n", type));
      break;
    }
  }

  if ((qemu_hide_flags_value & QEMU_UNPLUG_ALL_IDE_DISKS) || qemu_hide_filter)
    xi->inactive = FALSE;

  xi->power_state = NdisDeviceStateD0;
  xi->power_workitem = IoAllocateWorkItem(xi->fdo);

  // now build config page
  
  NdisOpenConfiguration(&status, &config_handle, WrapperConfigurationContext);
  if (!NT_SUCCESS(status))
  {
    KdPrint(("Could not open config in registry (%08x)\n", status));
    status = NDIS_STATUS_RESOURCES;
    goto err;
  }

  NdisInitUnicodeString(&config_param_name, L"ScatterGather");
  NdisReadConfiguration(&status, &config_param, config_handle, &config_param_name, NdisParameterInteger);
  if (!NT_SUCCESS(status))
  {
    KdPrint(("Could not read ScatterGather value (%08x)\n", status));
    xi->config_sg = 1;
  }
  else
  {
    KdPrint(("ScatterGather = %d\n", config_param->ParameterData.IntegerData));
    xi->config_sg = config_param->ParameterData.IntegerData;
  }
  
  NdisInitUnicodeString(&config_param_name, L"LargeSendOffload");
  NdisReadConfiguration(&status, &config_param, config_handle, &config_param_name, NdisParameterInteger);
  if (!NT_SUCCESS(status))
  {
    KdPrint(("Could not read LargeSendOffload value (%08x)\n", status));
    xi->config_gso = 0;
  }
  else
  {
    KdPrint(("LargeSendOffload = %d\n", config_param->ParameterData.IntegerData));
    xi->config_gso = config_param->ParameterData.IntegerData;
    if (xi->config_gso > 61440)
    {
      xi->config_gso = 61440;
      KdPrint(("(clipped to %d)\n", xi->config_gso));
    }
  }

  NdisInitUnicodeString(&config_param_name, L"ChecksumOffload");
  NdisReadConfiguration(&status, &config_param, config_handle, &config_param_name, NdisParameterInteger);
  if (!NT_SUCCESS(status))
  {
    KdPrint(("Could not read ChecksumOffload value (%08x)\n", status));
    xi->config_csum = 1;
  }
  else
  {
    KdPrint(("ChecksumOffload = %d\n", config_param->ParameterData.IntegerData));
    xi->config_csum = !!config_param->ParameterData.IntegerData;
  }

  NdisInitUnicodeString(&config_param_name, L"ChecksumOffloadRxCheck");
  NdisReadConfiguration(&status, &config_param, config_handle, &config_param_name, NdisParameterInteger);
  if (!NT_SUCCESS(status))
  {
    KdPrint(("Could not read ChecksumOffloadRxCheck value (%08x)\n", status));
    xi->config_csum_rx_check = 1;
  }
  else
  {
    KdPrint(("ChecksumOffloadRxCheck = %d\n", config_param->ParameterData.IntegerData));
    xi->config_csum_rx_check = !!config_param->ParameterData.IntegerData;
  }

  NdisInitUnicodeString(&config_param_name, L"ChecksumOffloadDontFix");
  NdisReadConfiguration(&status, &config_param, config_handle, &config_param_name, NdisParameterInteger);
  if (!NT_SUCCESS(status))
  {
    KdPrint(("Could not read ChecksumOffloadDontFix value (%08x)\n", status));
    xi->config_csum_rx_dont_fix = 0;
  }
  else
  {
    KdPrint(("ChecksumOffloadDontFix = %d\n", config_param->ParameterData.IntegerData));
    xi->config_csum_rx_dont_fix = !!config_param->ParameterData.IntegerData;
  }
  
  
  
  NdisInitUnicodeString(&config_param_name, L"MTU");
  NdisReadConfiguration(&status, &config_param, config_handle, &config_param_name, NdisParameterInteger);  
  if (!NT_SUCCESS(status))
  {
    KdPrint(("Could not read MTU value (%08x)\n", status));
    xi->config_mtu = 1500;
  }
  else
  {
    KdPrint(("MTU = %d\n", config_param->ParameterData.IntegerData));
    xi->config_mtu = config_param->ParameterData.IntegerData;
  }

  NdisInitUnicodeString(&config_param_name, L"RxInterruptModeration");
  NdisReadConfiguration(&status, &config_param, config_handle, &config_param_name, NdisParameterInteger);  
  if (!NT_SUCCESS(status))
  {
    KdPrint(("Could not read RxInterruptModeration value (%08x)\n", status));
    xi->config_rx_interrupt_moderation = 1500;
  }
  else
  {
    KdPrint(("RxInterruptModeration = %d\n", config_param->ParameterData.IntegerData));
    xi->config_rx_interrupt_moderation = config_param->ParameterData.IntegerData;
  }
  

  NdisReadNetworkAddress(&status, &network_address, &network_address_length, config_handle);
  if (!NT_SUCCESS(status) || network_address_length != ETH_ALEN || ((((PUCHAR)network_address)[0] & 0x03) != 0x02))
  {
    KdPrint(("Could not read NetworkAddress value (%08x) or value is invalid\n", status));
    memset(xi->curr_mac_addr, 0, ETH_ALEN);
  }
  else
  {
    memcpy(xi->curr_mac_addr, network_address, ETH_ALEN);
    KdPrint(("     Set MAC address from registry to %02X:%02X:%02X:%02X:%02X:%02X\n",
      xi->curr_mac_addr[0], xi->curr_mac_addr[1], xi->curr_mac_addr[2], 
      xi->curr_mac_addr[3], xi->curr_mac_addr[4], xi->curr_mac_addr[5]));
  }

  xi->config_max_pkt_size = max(xi->config_mtu + XN_HDR_SIZE, xi->config_gso + XN_HDR_SIZE);
  
  NdisCloseConfiguration(config_handle);

  status = XenNet_D0Entry(xi);
  if (!NT_SUCCESS(status))
  {
    KdPrint(("Failed to go to D0 (%08x)\n", status));
    goto err;
  }
  return NDIS_STATUS_SUCCESS;
  
err:
  NdisFreeMemory(xi, 0, 0);
  *OpenErrorStatus = status;
  FUNCTION_EXIT_STATUS(status);
  return status;
}