Source code of Windows XP (NT5)
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/*++
Copyright(c) 1998,99 Microsoft Corporation
Module Name:
init.c
Abstract:
Windows Load Balancing Service (WLBS)
Driver - initialization implementation
Author:
kyrilf
--*/
#define NDIS51_MINIPORT 1
#define NDIS_MINIPORT_DRIVER 1
#define NDIS50 1
#define NDIS51 1
#include <stdio.h>
#include <string.h>
#include <ndis.h>
#include "main.h"
#include "init.h"
#include "prot.h"
#include "nic.h"
#include "univ.h"
#include "wlbsparm.h"
#include "log.h"
#include "trace.h" // For wmi event tracing
static ULONG log_module_id = LOG_MODULE_INIT;
/* Added for NDIS51. */
extern VOID Nic_pnpevent_notify (
NDIS_HANDLE adapter_handle,
NDIS_DEVICE_PNP_EVENT pnp_event,
PVOID info_buf,
ULONG info_len);
/* Mark code that is used only during initialization. */
#pragma alloc_text (INIT, DriverEntry)
NDIS_STATUS DriverEntry (
PVOID driver_obj,
PVOID registry_path)
{
NDIS_PROTOCOL_CHARACTERISTICS prot_char;
NDIS_MINIPORT_CHARACTERISTICS nic_char;
NDIS_STRING prot_name = UNIV_NDIS_PROTOCOL_NAME;
NTSTATUS status;
PUNICODE_STRING reg_path = (PUNICODE_STRING) registry_path;
WCHAR params [] = L"\\Parameters\\Interface\\";
ULONG i;
/* Register Convoy protocol with NDIS. */
UNIV_PRINT (("DriverEntry: Loading the driver %x", driver_obj));
univ_driver_ptr = driver_obj;
/* Initialize the array of bindings. */
univ_adapters_count = 0;
for (i = 0 ; i < CVY_MAX_ADAPTERS; i++)
{
univ_adapters [i] . code = MAIN_ADAPTER_CODE;
univ_adapters [i] . announced = FALSE;
univ_adapters [i] . inited = FALSE;
univ_adapters [i] . bound = FALSE;
univ_adapters [i] . used = FALSE;
univ_adapters [i] . ctxtp = NULL;
univ_adapters [i] . device_name_len = 0;
univ_adapters [i] . device_name = NULL;
}
/* create UNICODE name for the protocol */
univ_reg_path_len = reg_path -> Length + wcslen (params) * sizeof (WCHAR) + sizeof (WCHAR);
status = NdisAllocateMemoryWithTag (& univ_reg_path, univ_reg_path_len, UNIV_POOL_TAG);
if (status != NDIS_STATUS_SUCCESS)
{
UNIV_PRINT (("Error allocating memory %x", status));
__LOG_MSG1 (MSG_ERROR_MEMORY, MSG_NONE, status);
return STATUS_INSUFFICIENT_RESOURCES;
}
RtlZeroMemory (univ_reg_path, reg_path -> Length + wcslen (params) * sizeof (WCHAR) + sizeof (WCHAR));
RtlCopyMemory (univ_reg_path, reg_path -> Buffer, reg_path -> Length);
RtlCopyMemory (((PCHAR) univ_reg_path) + reg_path -> Length, params, wcslen (params) * sizeof (WCHAR));
/* Initialize miniport wrapper. */
NdisMInitializeWrapper (& univ_wrapper_handle, driver_obj, registry_path, NULL);
/* Initialize miniport characteristics. */
RtlZeroMemory (& nic_char, sizeof (nic_char));
nic_char . MajorNdisVersion = UNIV_NDIS_MAJOR_VERSION;
nic_char . MinorNdisVersion = UNIV_NDIS_MINOR_VERSION;
nic_char . HaltHandler = Nic_halt;
nic_char . InitializeHandler = Nic_init;
nic_char . QueryInformationHandler = Nic_info_query;
nic_char . SetInformationHandler = Nic_info_set;
nic_char . ResetHandler = Nic_reset;
nic_char . ReturnPacketHandler = Nic_return;
nic_char . SendPacketsHandler = Nic_packets_send;
nic_char . TransferDataHandler = Nic_transfer;
/* For NDIS51, define 3 new handlers. These handlers do nothing for now, but stuff will be added later. */
nic_char . CancelSendPacketsHandler = Nic_cancel_send_packets;
nic_char . PnPEventNotifyHandler = Nic_pnpevent_notify;
nic_char . AdapterShutdownHandler = Nic_adapter_shutdown;
UNIV_PRINT (("DriverEntry: Registering miniport"));
status = NdisIMRegisterLayeredMiniport (univ_wrapper_handle, & nic_char, sizeof (nic_char), & univ_driver_handle);
if (status != NDIS_STATUS_SUCCESS)
{
UNIV_PRINT (("error registering layered miniport with NDIS %x", status));
__LOG_MSG1 (MSG_ERROR_REGISTERING, MSG_NONE, status);
NdisTerminateWrapper (univ_wrapper_handle, NULL);
NdisFreeMemory(univ_reg_path, univ_reg_path_len, 0);
goto error;
}
/* Initialize protocol characteristics. */
RtlZeroMemory (& prot_char, sizeof (prot_char));
/* This value needs to be 0, otherwise error registering protocol */
prot_char . MinorNdisVersion = 0;
prot_char . MajorNdisVersion = UNIV_NDIS_MAJOR_VERSION;
prot_char . BindAdapterHandler = Prot_bind;
prot_char . UnbindAdapterHandler = Prot_unbind;
prot_char . OpenAdapterCompleteHandler = Prot_open_complete;
prot_char . CloseAdapterCompleteHandler = Prot_close_complete;
prot_char . StatusHandler = Prot_status;
prot_char . StatusCompleteHandler = Prot_status_complete;
prot_char . ResetCompleteHandler = Prot_reset_complete;
prot_char . RequestCompleteHandler = Prot_request_complete;
prot_char . SendCompleteHandler = Prot_send_complete;
prot_char . TransferDataCompleteHandler = Prot_transfer_complete;
prot_char . ReceiveHandler = Prot_recv_indicate;
prot_char . ReceiveCompleteHandler = Prot_recv_complete;
prot_char . ReceivePacketHandler = Prot_packet_recv;
prot_char . PnPEventHandler = Prot_PNP_handle;
prot_char . Name = prot_name;
UNIV_PRINT (("DriverEntry: Registering protocol"));
NdisRegisterProtocol(& status, & univ_prot_handle, & prot_char, sizeof (prot_char));
if (status != NDIS_STATUS_SUCCESS)
{
UNIV_PRINT (("error registering protocol with NDIS %x", status));
__LOG_MSG1 (MSG_ERROR_REGISTERING, MSG_NONE, status);
NdisTerminateWrapper (univ_wrapper_handle, NULL);
NdisFreeMemory(univ_reg_path, univ_reg_path_len, 0);
goto error;
}
NdisIMAssociateMiniport (univ_driver_handle, univ_prot_handle);
NdisMRegisterUnloadHandler (univ_wrapper_handle, Init_unload);
NdisAllocateSpinLock (& univ_bind_lock);
/* Allocate the global spin lock to protect the list of bi-directional affinity teams. */
NdisAllocateSpinLock(&univ_bda_teaming_lock);
UNIV_PRINT (("DriverEntry: completed OK"));
//
// Initialize WMI event tracing
//
Trace_Initialize( driver_obj, registry_path );
return NDIS_STATUS_SUCCESS;
error:
return status;
} /* end DriverEntry */
VOID Init_unload (
PVOID driver_obj)
{
NDIS_STATUS status;
ULONG i;
UNIV_PRINT (("Init_unload: Unloading the driver %x", driver_obj));
/* If we failed to deallocate the context during unbind (both halt and unbind
were not called for example) - do it now before unloading the driver. */
for (i = 0 ; i < CVY_MAX_ADAPTERS; i++)
{
NdisAcquireSpinLock(& univ_bind_lock);
if (univ_adapters [i] . inited && univ_adapters [i] . ctxtp != NULL)
{
univ_adapters [i] . used = FALSE;
univ_adapters [i] . inited = FALSE;
univ_adapters [i] . announced = FALSE;
univ_adapters [i] . bound = FALSE;
NdisReleaseSpinLock(& univ_bind_lock);
Main_cleanup (univ_adapters [i] . ctxtp);
NdisFreeMemory (univ_adapters [i] . ctxtp, sizeof (MAIN_CTXT), 0);
univ_adapters [i] . ctxtp = NULL;
NdisFreeMemory (univ_adapters [i] . device_name, univ_adapters [i] . device_name_len, 0);
univ_adapters [i] . device_name = NULL;
univ_adapters [i] . device_name_len = 0;
}
else
{
NdisReleaseSpinLock(& univ_bind_lock);
}
}
/* Free the global spin lock to protect the list of bi-directional affinity teams. */
NdisFreeSpinLock(&univ_bda_teaming_lock);
NdisFreeSpinLock (& univ_bind_lock);
if (univ_prot_handle == NULL)
status = NDIS_STATUS_FAILURE;
else
NdisDeregisterProtocol (& status, univ_prot_handle);
UNIV_PRINT (("Init_unload: Deregistered protocol %x", univ_prot_handle, status));
//
// Deinitialize WMI event tracing
//
Trace_Deinitialize();
NdisFreeMemory(univ_reg_path, univ_reg_path_len, 0);
UNIV_PRINT (("Init_unload: Completed OK"));
} /* end Init_unload */
ULONG NLBMiniportCount = 0;
enum _DEVICE_STATE {
PS_DEVICE_STATE_READY = 0, // ready for create/delete
PS_DEVICE_STATE_CREATING, // create operation in progress
PS_DEVICE_STATE_DELETING // delete operation in progress
} NLBControlDeviceState = PS_DEVICE_STATE_READY;
/*
* Function:
* Purpose: This function is called by MiniportInitialize and registers the IOCTL interface for WLBS.
* The device is registered only for the first miniport instantiation.
* Author: shouse, 3.1.01 - Copied largely from the sample IM driver net\ndis\samples\im\
*/
NDIS_STATUS Init_register_device (VOID) {
NDIS_STATUS Status = NDIS_STATUS_SUCCESS;
UNICODE_STRING DeviceName;
UNICODE_STRING DeviceLinkUnicodeString;
PDRIVER_DISPATCH DispatchTable[IRP_MJ_MAXIMUM_FUNCTION];
UINT i;
UNIV_PRINT(("Init_register_device: Entering, NLBMiniportCount=%u", NLBMiniportCount));
NdisAcquireSpinLock(&univ_bind_lock);
++NLBMiniportCount;
if (1 == NLBMiniportCount)
{
ASSERT(NLBControlDeviceState != PS_DEVICE_STATE_CREATING);
UNIV_PRINT((" ** Registering IOCTL interface"));
/* Another thread could be running PtDeregisterDevice on behalf
of another miniport instance. If so, wait for it to exit. */
while (NLBControlDeviceState != PS_DEVICE_STATE_READY)
{
NdisReleaseSpinLock(&univ_bind_lock);
NdisMSleep(1);
NdisAcquireSpinLock(&univ_bind_lock);
}
NLBControlDeviceState = PS_DEVICE_STATE_CREATING;
NdisReleaseSpinLock(&univ_bind_lock);
for (i = 0; i < IRP_MJ_MAXIMUM_FUNCTION; i++)
DispatchTable[i] = Main_dispatch;
NdisInitUnicodeString(&DeviceName, CVY_DEVICE_NAME);
NdisInitUnicodeString(&DeviceLinkUnicodeString, CVY_DOSDEVICE_NAME);
/* Create a device object and register our dispatch handlers. */
Status = NdisMRegisterDevice(univ_wrapper_handle, &DeviceName, &DeviceLinkUnicodeString,
&DispatchTable[0], &univ_device_object, &univ_device_handle);
if (Status != NDIS_STATUS_SUCCESS || univ_device_handle == NULL)
{
UNIV_PRINT((" ** Error registering device with NDIS %x", Status));
__LOG_MSG1(MSG_ERROR_REGISTERING, MSG_NONE, Status);
univ_device_handle = NULL;
}
NdisAcquireSpinLock(&univ_bind_lock);
NLBControlDeviceState = PS_DEVICE_STATE_READY;
}
NdisReleaseSpinLock(&univ_bind_lock);
UNIV_PRINT(("Init_register_device: Exiting, Status=%x", Status));
return (Status);
}
/*
* Function:
* Purpose: This function is called by MiniportHalt and deregisters the IOCTL interface for WLBS.
* The device is deregistered only wnen the last miniport halts.
* Author: shouse, 3.1.01 - Copied largely from the sample IM driver net\ndis\samples\im\
*/
NDIS_STATUS Init_deregister_device (VOID) {
NDIS_STATUS Status = NDIS_STATUS_SUCCESS;
UNIV_PRINT(("Init_deregister_device: Entering, NLBMiniportCount=%u", NLBMiniportCount));
NdisAcquireSpinLock(&univ_bind_lock);
ASSERT(NLBMiniportCount > 0);
--NLBMiniportCount;
if (0 == NLBMiniportCount)
{
/* All miniport instances have been halted. Deregister the control device. */
ASSERT(NLBControlDeviceState == PS_DEVICE_STATE_READY);
UNIV_PRINT((" ** Deleting IOCTL interface"));
/* Block PtRegisterDevice() while we release the control
device lock and deregister the device. */
NLBControlDeviceState = PS_DEVICE_STATE_DELETING;
NdisReleaseSpinLock(&univ_bind_lock);
if (univ_device_handle != NULL)
{
Status = NdisMDeregisterDevice(univ_device_handle);
univ_device_handle = NULL;
}
NdisAcquireSpinLock(&univ_bind_lock);
NLBControlDeviceState = PS_DEVICE_STATE_READY;
}
NdisReleaseSpinLock(&univ_bind_lock);
UNIV_PRINT(("Init_deregister_Device: Exiting, Status=%x", Status));
return Status;
}