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564 lines
17 KiB
564 lines
17 KiB
/*++
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Copyright (C) Microsoft Corporation, 1991 - 1999
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Module Name:
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utils.c
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Abstract:
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SCSI class driver routines
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Environment:
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kernel mode only
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Notes:
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Revision History:
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--*/
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#include "classp.h"
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#include "debug.h"
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#ifdef ALLOC_PRAGMA
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#pragma alloc_text(PAGE, ClassGetDeviceParameter)
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#pragma alloc_text(PAGE, ClassScanForSpecial)
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#pragma alloc_text(PAGE, ClassSetDeviceParameter)
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#endif
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// custom string match -- careful!
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BOOLEAN ClasspMyStringMatches(IN PCHAR StringToMatch OPTIONAL, IN PCHAR TargetString)
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{
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ULONG length; // strlen returns an int, not size_t (!)
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PAGED_CODE();
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ASSERT(TargetString);
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// if no match requested, return TRUE
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if (StringToMatch == NULL) {
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return TRUE;
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}
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// cache the string length for efficiency
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length = strlen(StringToMatch);
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// ZERO-length strings may only match zero-length strings
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if (length == 0) {
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return (strlen(TargetString) == 0);
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}
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// strncmp returns zero if the strings match
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return (strncmp(StringToMatch, TargetString, length) == 0);
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}
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VOID ClassGetDeviceParameter(
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IN PFUNCTIONAL_DEVICE_EXTENSION FdoExtension,
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IN PWSTR SubkeyName OPTIONAL,
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IN PWSTR ParameterName,
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IN OUT PULONG ParameterValue // also default value
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)
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{
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NTSTATUS status;
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RTL_QUERY_REGISTRY_TABLE queryTable[2];
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HANDLE deviceParameterHandle;
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HANDLE deviceSubkeyHandle;
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ULONG defaultParameterValue;
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PAGED_CODE();
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//
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// open the given parameter
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//
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status = IoOpenDeviceRegistryKey(FdoExtension->LowerPdo,
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PLUGPLAY_REGKEY_DEVICE,
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KEY_READ,
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&deviceParameterHandle);
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if (NT_SUCCESS(status) && (SubkeyName != NULL)) {
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UNICODE_STRING subkeyName;
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OBJECT_ATTRIBUTES objectAttributes;
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RtlInitUnicodeString(&subkeyName, SubkeyName);
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InitializeObjectAttributes(&objectAttributes,
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&subkeyName,
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OBJ_CASE_INSENSITIVE | OBJ_KERNEL_HANDLE,
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deviceParameterHandle,
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NULL);
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status = ZwOpenKey(&deviceSubkeyHandle,
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KEY_READ,
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&objectAttributes);
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if (!NT_SUCCESS(status)) {
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ZwClose(deviceParameterHandle);
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}
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}
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if (NT_SUCCESS(status)) {
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RtlZeroMemory(queryTable, sizeof(queryTable));
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defaultParameterValue = *ParameterValue;
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queryTable->Flags = RTL_QUERY_REGISTRY_DIRECT | RTL_QUERY_REGISTRY_REQUIRED;
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queryTable->Name = ParameterName;
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queryTable->EntryContext = ParameterValue;
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queryTable->DefaultType = REG_DWORD;
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queryTable->DefaultData = NULL;
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queryTable->DefaultLength = 0;
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status = RtlQueryRegistryValues(RTL_REGISTRY_HANDLE,
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(PWSTR)(SubkeyName ?
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deviceSubkeyHandle :
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deviceParameterHandle),
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queryTable,
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NULL,
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NULL);
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if (!NT_SUCCESS(status)) {
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*ParameterValue = defaultParameterValue; // use default value
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}
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//
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// close what we open
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//
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if (SubkeyName) {
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ZwClose(deviceSubkeyHandle);
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}
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ZwClose(deviceParameterHandle);
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}
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return;
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} // end ClassGetDeviceParameter()
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NTSTATUS ClassSetDeviceParameter(
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IN PFUNCTIONAL_DEVICE_EXTENSION FdoExtension,
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IN PWSTR SubkeyName OPTIONAL,
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IN PWSTR ParameterName,
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IN ULONG ParameterValue)
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{
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NTSTATUS status;
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HANDLE deviceParameterHandle;
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HANDLE deviceSubkeyHandle;
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PAGED_CODE();
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//
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// open the given parameter
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//
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status = IoOpenDeviceRegistryKey(FdoExtension->LowerPdo,
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PLUGPLAY_REGKEY_DEVICE,
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KEY_READ | KEY_WRITE,
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&deviceParameterHandle);
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if (NT_SUCCESS(status) && (SubkeyName != NULL)) {
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UNICODE_STRING subkeyName;
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OBJECT_ATTRIBUTES objectAttributes;
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RtlInitUnicodeString(&subkeyName, SubkeyName);
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InitializeObjectAttributes(&objectAttributes,
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&subkeyName,
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OBJ_CASE_INSENSITIVE | OBJ_KERNEL_HANDLE,
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deviceParameterHandle,
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NULL);
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status = ZwCreateKey(&deviceSubkeyHandle,
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KEY_READ | KEY_WRITE,
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&objectAttributes,
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0, NULL, 0, NULL);
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if (!NT_SUCCESS(status)) {
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ZwClose(deviceParameterHandle);
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}
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}
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if (NT_SUCCESS(status)) {
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status = RtlWriteRegistryValue(
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RTL_REGISTRY_HANDLE,
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(PWSTR) (SubkeyName ?
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deviceSubkeyHandle :
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deviceParameterHandle),
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ParameterName,
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REG_DWORD,
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&ParameterValue,
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sizeof(ULONG));
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//
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// close what we open
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//
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if (SubkeyName) {
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ZwClose(deviceSubkeyHandle);
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}
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ZwClose(deviceParameterHandle);
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}
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return status;
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} // end ClassSetDeviceParameter()
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/*
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* ClassScanForSpecial
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*
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* This routine was written to simplify scanning for special
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* hardware based upon id strings. it does not check the registry.
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*/
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VOID ClassScanForSpecial(
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IN PFUNCTIONAL_DEVICE_EXTENSION FdoExtension,
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IN CLASSPNP_SCAN_FOR_SPECIAL_INFO DeviceList[],
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IN PCLASS_SCAN_FOR_SPECIAL_HANDLER Function)
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{
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PSTORAGE_DEVICE_DESCRIPTOR deviceDescriptor;
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PUCHAR vendorId;
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PUCHAR productId;
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PUCHAR productRevision;
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UCHAR nullString[] = "";
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ULONG j;
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PAGED_CODE();
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ASSERT(DeviceList);
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ASSERT(Function);
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deviceDescriptor = FdoExtension->DeviceDescriptor;
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if (DeviceList == NULL) {
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return;
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}
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if (Function == NULL) {
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return;
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}
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//
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// SCSI sets offsets to -1, ATAPI sets to 0. check for both.
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//
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if (deviceDescriptor->VendorIdOffset != 0 &&
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deviceDescriptor->VendorIdOffset != -1) {
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vendorId = ((PUCHAR)deviceDescriptor);
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vendorId += deviceDescriptor->VendorIdOffset;
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} else {
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vendorId = nullString;
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}
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if (deviceDescriptor->ProductIdOffset != 0 &&
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deviceDescriptor->ProductIdOffset != -1) {
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productId = ((PUCHAR)deviceDescriptor);
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productId += deviceDescriptor->ProductIdOffset;
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} else {
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productId = nullString;
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}
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if (deviceDescriptor->VendorIdOffset != 0 &&
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deviceDescriptor->VendorIdOffset != -1) {
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productRevision = ((PUCHAR)deviceDescriptor);
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productRevision += deviceDescriptor->ProductRevisionOffset;
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} else {
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productRevision = nullString;
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}
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//
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// loop while the device list is valid (not null-filled)
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//
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for (;(DeviceList->VendorId != NULL ||
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DeviceList->ProductId != NULL ||
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DeviceList->ProductRevision != NULL);DeviceList++) {
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if (ClasspMyStringMatches(DeviceList->VendorId, vendorId) &&
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ClasspMyStringMatches(DeviceList->ProductId, productId) &&
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ClasspMyStringMatches(DeviceList->ProductRevision, productRevision)
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) {
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DebugPrint((1, "ClasspScanForSpecialByInquiry: Found matching "
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"controller Ven: %s Prod: %s Rev: %s\n",
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vendorId, productId, productRevision));
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//
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// pass the context to the call back routine and exit
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//
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(Function)(FdoExtension, DeviceList->Data);
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//
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// for CHK builds, try to prevent wierd stacks by having a debug
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// print here. it's a hack, but i know of no other way to prevent
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// the stack from being wrong.
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//
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DebugPrint((16, "ClasspScanForSpecialByInquiry: "
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"completed callback\n"));
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return;
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} // else the strings did not match
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} // none of the devices matched.
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DebugPrint((1, "ClasspScanForSpecialByInquiry: no match found for %p\n",
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FdoExtension->DeviceObject));
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return;
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} // end ClasspScanForSpecialByInquiry()
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//
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// In order to provide better performance without the need to reboot,
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// we need to implement a self-adjusting method to set and clear the
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// srb flags based upon current performance.
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//
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// whenever there is an error, immediately grab the spin lock. the
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// MP perf hit here is acceptable, since we're in an error path. this
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// is also neccessary because we are guaranteed to be modifying the
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// SRB flags here, setting SuccessfulIO to zero, and incrementing the
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// actual error count (which is always done within this spinlock).
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//
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// whenever there is no error, increment a counter. if there have been
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// errors on the device, and we've enabled dynamic perf, *and* we've
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// just crossed the perf threshhold, then grab the spin lock and
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// double check that the threshhold has, indeed been hit(*). then
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// decrement the error count, and if it's dropped sufficiently, undo
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// some of the safety changes made in the SRB flags due to the errors.
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//
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// * this works in all cases. even if lots of ios occur after the
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// previous guy went in and cleared the successfulio counter, that
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// just means that we've hit the threshhold again, and so it's proper
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// to run the inner loop again.
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//
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VOID
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ClasspPerfIncrementErrorCount(
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IN PFUNCTIONAL_DEVICE_EXTENSION FdoExtension
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)
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{
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PCLASS_PRIVATE_FDO_DATA fdoData = FdoExtension->PrivateFdoData;
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KIRQL oldIrql;
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ULONG errors;
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KeAcquireSpinLock(&fdoData->SpinLock, &oldIrql);
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fdoData->Perf.SuccessfulIO = 0; // implicit interlock
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errors = InterlockedIncrement(&FdoExtension->ErrorCount);
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if (errors >= CLASS_ERROR_LEVEL_1) {
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//
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// If the error count has exceeded the error limit, then disable
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// any tagged queuing, multiple requests per lu queueing
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// and sychronous data transfers.
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//
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// Clearing the no queue freeze flag prevents the port driver
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// from sending multiple requests per logical unit.
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//
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CLEAR_FLAG(FdoExtension->SrbFlags, SRB_FLAGS_NO_QUEUE_FREEZE);
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CLEAR_FLAG(FdoExtension->SrbFlags, SRB_FLAGS_QUEUE_ACTION_ENABLE);
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SET_FLAG(FdoExtension->SrbFlags, SRB_FLAGS_DISABLE_SYNCH_TRANSFER);
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DebugPrint((ClassDebugError, "ClasspPerfIncrementErrorCount: "
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"Too many errors; disabling tagged queuing and "
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"synchronous data tranfers.\n"));
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}
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if (errors >= CLASS_ERROR_LEVEL_2) {
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//
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// If a second threshold is reached, disable disconnects.
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//
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SET_FLAG(FdoExtension->SrbFlags, SRB_FLAGS_DISABLE_DISCONNECT);
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DebugPrint((ClassDebugError, "ClasspPerfIncrementErrorCount: "
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"Too many errors; disabling disconnects.\n"));
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}
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KeReleaseSpinLock(&fdoData->SpinLock, oldIrql);
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return;
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}
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VOID
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ClasspPerfIncrementSuccessfulIo(
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IN PFUNCTIONAL_DEVICE_EXTENSION FdoExtension
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)
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{
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PCLASS_PRIVATE_FDO_DATA fdoData = FdoExtension->PrivateFdoData;
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KIRQL oldIrql;
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ULONG errors;
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ULONG succeeded = 0;
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//
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// don't take a hit from the interlocked op unless we're in
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// a degraded state and we've got a threshold to hit.
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//
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if (FdoExtension->ErrorCount == 0) {
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return;
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}
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if (fdoData->Perf.ReEnableThreshhold == 0) {
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return;
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}
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succeeded = InterlockedIncrement(&fdoData->Perf.SuccessfulIO);
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if (succeeded < fdoData->Perf.ReEnableThreshhold) {
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return;
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}
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//
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// if we hit the threshold, grab the spinlock and verify we've
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// actually done so. this allows us to ignore the spinlock 99%
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// of the time.
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//
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KeAcquireSpinLock(&fdoData->SpinLock, &oldIrql);
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//
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// re-read the value, so we don't run this multiple times
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// for a single threshhold being hit. this keeps errorcount
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// somewhat useful.
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//
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succeeded = fdoData->Perf.SuccessfulIO;
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if ((FdoExtension->ErrorCount != 0) &&
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(fdoData->Perf.ReEnableThreshhold <= succeeded)
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) {
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fdoData->Perf.SuccessfulIO = 0; // implicit interlock
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ASSERT(FdoExtension->ErrorCount > 0);
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errors = InterlockedDecrement(&FdoExtension->ErrorCount);
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//
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// note: do in reverse order of the sets "just in case"
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//
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if (errors < CLASS_ERROR_LEVEL_2) {
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if (errors == CLASS_ERROR_LEVEL_2 - 1) {
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DebugPrint((ClassDebugError, "ClasspPerfIncrementSuccessfulIo: "
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"Error level 2 no longer required.\n"));
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}
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if (!TEST_FLAG(fdoData->Perf.OriginalSrbFlags,
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SRB_FLAGS_DISABLE_DISCONNECT)) {
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CLEAR_FLAG(FdoExtension->SrbFlags,
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SRB_FLAGS_DISABLE_DISCONNECT);
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}
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}
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if (errors < CLASS_ERROR_LEVEL_1) {
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if (errors == CLASS_ERROR_LEVEL_1 - 1) {
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DebugPrint((ClassDebugError, "ClasspPerfIncrementSuccessfulIo: "
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"Error level 1 no longer required.\n"));
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}
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if (!TEST_FLAG(fdoData->Perf.OriginalSrbFlags,
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SRB_FLAGS_DISABLE_SYNCH_TRANSFER)) {
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CLEAR_FLAG(FdoExtension->SrbFlags,
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SRB_FLAGS_DISABLE_SYNCH_TRANSFER);
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}
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if (TEST_FLAG(fdoData->Perf.OriginalSrbFlags,
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SRB_FLAGS_QUEUE_ACTION_ENABLE)) {
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SET_FLAG(FdoExtension->SrbFlags,
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SRB_FLAGS_QUEUE_ACTION_ENABLE);
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}
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if (TEST_FLAG(fdoData->Perf.OriginalSrbFlags,
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SRB_FLAGS_NO_QUEUE_FREEZE)) {
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SET_FLAG(FdoExtension->SrbFlags,
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SRB_FLAGS_NO_QUEUE_FREEZE);
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}
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}
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} // end of threshhold definitely being hit for first time
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KeReleaseSpinLock(&fdoData->SpinLock, oldIrql);
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return;
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}
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PMDL BuildDeviceInputMdl(PVOID Buffer, ULONG BufferLen)
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{
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PMDL mdl;
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mdl = IoAllocateMdl(Buffer, BufferLen, FALSE, FALSE, NULL);
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if (mdl){
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try {
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/*
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* We are reading from the device.
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* Therefore, the device is WRITING to the locked memory.
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* So we request IoWriteAccess.
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*/
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MmProbeAndLockPages(mdl, KernelMode, IoWriteAccess);
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} except(EXCEPTION_EXECUTE_HANDLER) {
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NTSTATUS status = GetExceptionCode();
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DBGWARN(("BuildReadMdl: MmProbeAndLockPages failed with %xh.", status));
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IoFreeMdl(mdl);
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mdl = NULL;
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}
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}
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else {
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DBGWARN(("BuildReadMdl: IoAllocateMdl failed"));
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}
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return mdl;
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}
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VOID FreeDeviceInputMdl(PMDL Mdl)
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{
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MmUnlockPages(Mdl);
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IoFreeMdl(Mdl);
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}
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#if 0
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VOID
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ClasspPerfResetCounters(
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IN PFUNCTIONAL_DEVICE_EXTENSION FdoExtension
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)
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{
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PCLASS_PRIVATE_FDO_DATA fdoData = FdoExtension->PrivateFdoData;
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KIRQL oldIrql;
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KeAcquireSpinLock(&fdoData->SpinLock, &oldIrql);
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DebugPrint((ClassDebugError, "ClasspPerfResetCounters: "
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"Resetting all perf counters.\n"));
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fdoData->Perf.SuccessfulIO = 0;
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FdoExtension->ErrorCount = 0;
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if (!TEST_FLAG(fdoData->Perf.OriginalSrbFlags,
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SRB_FLAGS_DISABLE_DISCONNECT)) {
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CLEAR_FLAG(FdoExtension->SrbFlags,
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SRB_FLAGS_DISABLE_DISCONNECT);
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}
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if (!TEST_FLAG(fdoData->Perf.OriginalSrbFlags,
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SRB_FLAGS_DISABLE_SYNCH_TRANSFER)) {
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CLEAR_FLAG(FdoExtension->SrbFlags,
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SRB_FLAGS_DISABLE_SYNCH_TRANSFER);
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}
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if (TEST_FLAG(fdoData->Perf.OriginalSrbFlags,
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SRB_FLAGS_QUEUE_ACTION_ENABLE)) {
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SET_FLAG(FdoExtension->SrbFlags,
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SRB_FLAGS_QUEUE_ACTION_ENABLE);
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}
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if (TEST_FLAG(fdoData->Perf.OriginalSrbFlags,
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SRB_FLAGS_NO_QUEUE_FREEZE)) {
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SET_FLAG(FdoExtension->SrbFlags,
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SRB_FLAGS_NO_QUEUE_FREEZE);
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}
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KeReleaseSpinLock(&fdoData->SpinLock, oldIrql);
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return;
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}
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#endif
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