Читаем Windows® Internals, Sixth Edition, Part 2 полностью

II/O cancellation, KMDF I/O ModelI/O completion, Opening Devices, Opening Devices, I/O Request to a Single-Layered Driver–I/O Request to a Single-Layered Driver, I/O Request to a Single-Layered Driver, Servicing an Interrupt, Completing an I/O Request, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Completion Ports–I/O Priorities, The IoCompletion Object, Using Completion Ports, I/O Completion Port Operation–I/O Priorities, I/O Completion Port Operation, I/O Completion Port Operation, I/O Completion Port Operation, I/O Completion Port Operation, I/O Completion Port Operation, I/O Priorities, I/O Prioritiesassociated IRPs, I/O Requests to Layered Driverscompletion context, Opening Devicescompletion ports, I/O Completion Ports–I/O Priorities, The IoCompletion Object, Using Completion Ports, I/O Completion Port Operation, I/O Completion Port Operation, I/O Completion Port Operation, I/O Prioritiesfile attributes, Opening Devicesin processing, I/O Request to a Single-Layered Driver–I/O Request to a Single-Layered Driver, I/O Request to a Single-Layered Driver, Servicing an Interruptlayered drivers, I/O Requests to Layered Driversport operation, I/O Completion Port Operation–I/O Priorities, I/O Completion Port Operation, I/O Completion Port Operation, I/O Prioritiesprocess, Completing an I/O RequestI/O completion ports, Opening Devices, Synchronous and Asynchronous I/O, Completing an I/O Request, User-Initiated I/O Cancellation, I/O Cancellation for Thread Termination, The IoCompletion Object, Using Completion Ports, I/O Completion Port Operation, I/O Completion Port Operation, I/O Completion Port Operationcompletion process, Completing an I/O Request, I/O Cancellation for Thread Termination, The IoCompletion Object, Using Completion Ports, I/O Completion Port Operation, I/O Completion Port Operation, I/O Completion Port Operationfile object attributes, Opening DevicesI/O cancellation, User-Initiated I/O Cancellationtesting asynchronous I/O, Synchronous and Asynchronous I/OI/O concurrency, KMDF I/O ModelI/O control codes, IRP Buffer ManagementI/O errors, PFN Data Structures, PFN Data StructuresI/O manager and operations, I/O System, I/O System Components, The I/O Manager–Device Drivers, The I/O Manager, Typical I/O Processing, Device Drivers, Driver Objects and Device Objects, Opening Devices, Opening Devices, Opening Devices, Opening Devices, I/O Processing–I/O Request to a Single-Layered Driver, Fast I/O, Fast I/O, Fast I/O, Fast I/O, Mapped File I/O and File Caching–I/O Request Packets, Scatter/Gather I/O, Scatter/Gather I/O, I/O Request Packets, I/O Request Packets, I/O Request Packets, IRP Stack Locations, IRP Stack Locations, IRP Buffer Management, IRP Buffer Management–I/O Request to a Single-Layered Driver, I/O Request to a Single-Layered Driver, I/O Request to a Single-Layered Driver, I/O Request to a Single-Layered Driver, Completing an I/O Request–Synchronization, Completing an I/O Request, Completing an I/O Request, Synchronization, I/O Requests to Layered Drivers–I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Cancellation for Thread Termination–I/O Completion Ports, I/O Cancellation for Thread Termination, I/O Completion Ports–I/O Priorities, I/O Completion Ports, The IoCompletion Object, Using Completion Ports, Using Completion Ports, I/O Completion Port Operation, I/O Prioritization–Bandwidth Reservation (Scheduled File I/O), I/O Priorities, Prioritization Strategies, Prioritization Strategies, I/O Priority Inversion Avoidance (I/O Priority Inheritance), I/O Priority Boosts and Bumps, Bandwidth Reservation (Scheduled File I/O), Bandwidth Reservation (Scheduled File I/O), Driver Verifier, Driver Verifier, Driver Verifier, Kernel-Mode Driver Framework (KMDF)–KMDF I/O Model, Structure and Operation of a KMDF Driver, KMDF Data Model, KMDF Data Model, KMDF I/O Model, KMDF I/O Model–KMDF I/O Model, KMDF I/O Model, KMDF I/O Model, KMDF I/O Model, KMDF I/O Model, KMDF I/O Model, KMDF I/O Model, KMDF I/O Model, KMDF I/O Model, The Plug and Play (PnP) Manager, Level of Plug and Play Support, Driver Support for Plug and Play, Driver Loading, Initialization, and Installation, The Start Value, Device Enumeration, Device Enumeration, Device Stacks, Device Stacks, Device Stack Driver Loading, Device Stack Driver Loading, Driver Installation, Driver Installation, Driver Installation, The Power Manager–Conclusion, The Power Manager, Power Manager Operation, Driver Power Operation, Driver Power Operation, Driver Power Operation, Driver Power Operation, Driver and Application Control of Device Power, Power Availability Requests, Power Availability Requests, Processor Power Management (PPM), Core Parking Policies, Utility Function, Algorithm Overrides, Thresholds and Policy Settings, Thresholds and Policy Settings, Performance Check, Conclusion, Conclusion, Mount Points, Volume Mounting, Volume Mounting–Volume Mounting, Volume Mounting, Volume Mounting, Volume I/O Operations–Virtual Disk Service, Virtual Disk Service, Virtual Disk Service, Look-Aside Lists, In-Paging I/O–Collided Page Faults, Collided Page Faults, Page Priority and Rebalancing, Robust Performance–Robust Performance, Robust Performance, The Memory Manager, Recoverable File System Support, Fast I/O, Fast I/O–Read-Ahead and Write-Behind, Fast I/O, Read-Ahead and Write-Behind, Write-Back Caching and Lazy Writing, Local FSDs–Local FSDs, Local FSDs, Local FSDs, Process Monitor Basic vs. Advanced Modes, Recoverability–Data Redundancy and Fault Tolerance, Data Redundancy and Fault Tolerance, NTFS File System Driver, NTFS File System Driver, NTFS File System Driver, Driver Loading in Safe Mode, Shutdown, Crash Dump Generationatomic transactions, Recoverability–Data Redundancy and Fault Tolerance, Data Redundancy and Fault Tolerancebuffer management, IRP Buffer Management–I/O Request to a Single-Layered Driver, I/O Request to a Single-Layered Drivercache manager, The Memory Managercanceling IRPs, I/O Cancellation for Thread Termination–I/O Completion Ports, I/O Cancellation for Thread Termination, I/O Completion Portscompletion, Completing an I/O Request–Synchronization, Completing an I/O Request, Completing an I/O Request, Synchronization, Using Completion Portscompletion ports, I/O Completion Ports–I/O Priorities, The IoCompletion Object, Using Completion Ports, I/O Completion Port Operation, I/O Prioritiescomponents, I/O System, I/O System Components, The I/O Manager, NTFS File System Drivercopy engine, Write-Back Caching and Lazy Writingdevice drivers, Opening Devices, Opening Devices, Opening Devices, Opening Devicesdriver and device objects, Driver Objects and Device Objectsdriver initialization, The Start ValueDriver Verifier, Driver Verifier, Driver Verifier, Driver Verifierfast I/O, Fast I/O, Fast I/O, Fast I/O, Fast I/O–Read-Ahead and Write-Behind, Fast I/O, Read-Ahead and Write-Behindhalf-completed I/O, Recoverable File System Supportin-paging I/O, In-Paging I/O–Collided Page Faults, Collided Page FaultsIRPs, I/O Request PacketsKernel-Mode Driver Framework (KMDF), Kernel-Mode Driver Framework (KMDF)–KMDF I/O Model, Structure and Operation of a KMDF Driver, KMDF Data Model, KMDF Data Model, KMDF I/O Model, KMDF I/O Model, KMDF I/O Model, KMDF I/O ModelKMDF model, KMDF I/O Model–KMDF I/O Model, KMDF I/O Model, KMDF I/O Model, KMDF I/O ModelKMDF queues, KMDF I/O Modellayered driver processing, I/O Requests to Layered Drivers–I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, NTFS File System Driver, NTFS File System Driverloading drivers, Driver Loading in Safe Modelocal file system drivers, Local FSDs–Local FSDs, Local FSDs, Local FSDslook-aside lists, Look-Aside Listsmapped file I/O and caching, Mapped File I/O and File Caching–I/O Request Packets, I/O Request Packets, I/O Request Packetsmounted volumes, Volume Mounting–Volume Mounting, Volume Mounting, Volume Mountingmounting process, Volume Mountingnot shown in Process Monitor, Process Monitor Basic vs. Advanced ModesPnP manager, The Plug and Play (PnP) Manager, Level of Plug and Play Support, Driver Support for Plug and Play, Driver Loading, Initialization, and Installation, Device Enumeration, Device Enumeration, Device Stacks, Device Stacks, Device Stack Driver Loading, Device Stack Driver Loading, Driver Installation, Driver Installation, Driver Installationpower manager, The Power Manager–Conclusion, The Power Manager, Power Manager Operation, Driver Power Operation, Driver Power Operation, Driver Power Operation, Driver Power Operation, Driver and Application Control of Device Power, Power Availability Requests, Power Availability Requests, Processor Power Management (PPM), Core Parking Policies, Utility Function, Algorithm Overrides, Thresholds and Policy Settings, Thresholds and Policy Settings, Performance Check, Conclusion, Conclusionprioritization, I/O Prioritization–Bandwidth Reservation (Scheduled File I/O), Prioritization Strategies, Prioritization Strategies, I/O Priority Inversion Avoidance (I/O Priority Inheritance), I/O Priority Boosts and Bumps, Bandwidth Reservation (Scheduled File I/O), Bandwidth Reservation (Scheduled File I/O)reparse points, Mount Pointsrequest processing, The I/O Manager–Device Drivers, Typical I/O Processing, Device Driversrequest types, I/O Processing–I/O Request to a Single-Layered Driver, Fast I/O, Fast I/O, Scatter/Gather I/O, IRP Stack Locations, IRP Stack Locations, IRP Buffer Management, I/O Request to a Single-Layered Driver, I/O Request to a Single-Layered Driverrobust performance, Robust Performance–Robust Performance, Robust Performancescatter/gather I/O, Scatter/Gather I/Oshutting down, ShutdownSuperfetch rebalancer, Page Priority and Rebalancingsynchronization, KMDF I/O Modelvolume operations, Volume I/O Operations–Virtual Disk Service, Virtual Disk Service, Virtual Disk Servicewriting crash dumps, Crash Dump GenerationI/O port drivers, Layered DriversI/O prioritization, Opening Devices, Prioritization Strategies–I/O Priority Inversion Avoidance (I/O Priority Inheritance), Prioritization Strategies, I/O Priority Inversion Avoidance (I/O Priority Inheritance), I/O Priority Inversion Avoidance (I/O Priority Inheritance), I/O Priority Inversion Avoidance (I/O Priority Inheritance), I/O Priority Boosts and Bumps–Bandwidth Reservation (Scheduled File I/O), Bandwidth Reservation (Scheduled File I/O)boosts and bumps, I/O Priority Boosts and Bumps–Bandwidth Reservation (Scheduled File I/O), Bandwidth Reservation (Scheduled File I/O)file object attributes, Opening Devicesinheritance, I/O Priority Inversion Avoidance (I/O Priority Inheritance)strategies, Prioritization Strategies–I/O Priority Inversion Avoidance (I/O Priority Inheritance), Prioritization Strategies, I/O Priority Inversion Avoidance (I/O Priority Inheritance), I/O Priority Inversion Avoidance (I/O Priority Inheritance)I/O priority inheritance, I/O Priority Inversion Avoidance (I/O Priority Inheritance)I/O priority inversion avoidance, I/O Priority Inversion Avoidance (I/O Priority Inheritance)I/O queues, KMDF Data ModelI/O requests, The I/O Manager, The I/O Manager, I/O Processing–I/O Request to a Single-Layered Driver, I/O Processing–Synchronous and Asynchronous I/O, I/O Processing–Synchronous and Asynchronous I/O, I/O Processing, Synchronous and Asynchronous I/O–Synchronous and Asynchronous I/O, Synchronous and Asynchronous I/O, Synchronous and Asynchronous I/O, Synchronous and Asynchronous I/O, Fast I/O, Fast I/O, Fast I/O, Scatter/Gather I/O, IRP Buffer Management, I/O Request to a Single-Layered Driver, Servicing an Interrupt–Completing an I/O Request, Servicing an Interrupt, Completing an I/O Request–Synchronization, Completing an I/O Request, Completing an I/O Request, Completing an I/O Request, Synchronization–Synchronization, Synchronization, Synchronization, Synchronization, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Cancellation–I/O Completion Ports, User-Initiated I/O Cancellation, I/O Cancellation for Thread Termination, I/O Cancellation for Thread Termination, I/O Cancellation for Thread Termination, I/O Completion Ports, KMDF Data Model, Large and Small Pagesasynchronous, I/O Processing–Synchronous and Asynchronous I/O, Synchronous and Asynchronous I/Ocancellation, I/O Cancellation–I/O Completion Ports, User-Initiated I/O Cancellation, I/O Cancellation for Thread Termination, I/O Cancellation for Thread Termination, I/O Cancellation for Thread Termination, I/O Completion Portscompleting, Completing an I/O Request–Synchronization, Completing an I/O Request, Completing an I/O Request, Synchronizationcontrol flow, Fast I/Ofast I/O, Fast I/O, Fast I/OI/O manager, The I/O Manager, The I/O Managerinterrupts, Servicing an Interrupt–Completing an I/O Request, Servicing an Interrupt, Completing an I/O RequestKMDF objects, KMDF Data Modellarge pages, Large and Small Pageslayered drivers, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Requests to Layered Driversmultiple, Synchronous and Asynchronous I/O–Synchronous and Asynchronous I/O, Synchronous and Asynchronous I/Oprocessing, I/O Processingscatter/gather I/O, Scatter/Gather I/Osynchronization, Synchronization–Synchronization, Synchronization, Synchronizationsynchronous, I/O Processing–Synchronous and Asynchronous I/O, Synchronous and Asynchronous I/Otypes of, I/O Processing–I/O Request to a Single-Layered Driver, IRP Buffer Management, I/O Request to a Single-Layered DriverI/O status block ranges, Opening DevicesI/O status blocks, Completing an I/O RequestI/O targets, KMDF Data ModelI/O Verification option, Driver Verifieri8042 port driver, Hung or Unresponsive Systems–Hung or Unresponsive Systems, Hung or Unresponsive Systems, Hung or Unresponsive SystemsIA64 systems, Introduction to the Memory Manager, Address Windowing Extensions, IA64 Virtual Address Translation–Page Fault Handling, Page Fault Handling, Working Set Management, Code Overwrite and System Code Write Protectionaddress translation, IA64 Virtual Address Translation–Page Fault Handling, Page Fault HandlingAWE functions, Address Windowing Extensionsprocess virtual address space, Introduction to the Memory Managersystem code write protection, Code Overwrite and System Code Write Protectionworking set limits, Working Set ManagementiBFT (iSCSI Boot Firmware Table), Booting from iSCSIIDE devices, Prioritization Strategies, Bandwidth Reservation (Scheduled File I/O), Winloadideal model (PPM), Increase/Decrease Actions, Performance Checkideal node (NUMA), NUMAidempotent operations, Log Record Typesidle devices, Driver and Application Control of Device Poweridle I/Os, Prioritization Strategiesidle prioritization strategy, Prioritization Strategies, Prioritization Strategies, I/O Priority Boosts and BumpsIdle process, Initializing the Kernel and Executive Subsystemsidle processor states (C processor states), Processor Power Management (PPM), Processor Power Management (PPM), Performance Checkidle scaling (processors), Performance Checkidle state management policies, Thresholds and Policy Settingsidle systems, ComponentsIEEE 1394 (FireWire) cables, Hung or Unresponsive SystemsIEEE 1394 buses (FireWire), Types of Device Drivers, Kernel-Mode Driver Framework (KMDF), User-Mode Driver Framework (UMDF), Volume Management–Dynamic Disks, Dynamic Disks, The BIOS Boot Sector and Bootmgr, The BIOS Boot Sector and Bootmgrbasic disks, Volume Management–Dynamic Disks, Dynamic Disksdebugging devices, The BIOS Boot Sector and Bootmgrdrivers, Types of Device Drivershypervisor debugging, The BIOS Boot Sector and BootmgrKMDF support, Kernel-Mode Driver Framework (KMDF)UMDF support, User-Mode Driver Framework (UMDF)illegal instruction faults, Code Overwrite and System Code Write Protectionillegal operations, Driver Verifierimage activation, Mapped File I/O and File Cachingimage autoruns, Images That Start Automatically–Images That Start Automatically, Images That Start Automatically, Images That Start Automaticallyimage bias, Image RandomizationImage Dispatch Mitigation, Software Data Execution Preventionimage loader, Shared Memory and Mapped Filesimage randomization, Image Randomization, Image Randomizationimages, Crash Dump FilesImageX, Virtual Hard Disk SupportIMAGE_DLLCHARACTERISTICS_NX_COMPAT flag, No Execute Page Protection–Software Data Execution Prevention, No Execute Page Protection, Software Data Execution PreventionIMAGE_DLL_CHARACTERISTICS_DYNAMIC_BASE flag, User Address Space Layout, Controlling Security MitigationsIMAGE_FILE_LARGE_ADDRESS_AWARE flag, x86 Address Space Layoutsimplicit memory allocation, Driver VerifierIn POSIX function, Hard Linksin-page error PFN flag, PFN Data Structuresin-paging I/O, In-Paging I/O–Collided Page Faults, In-Paging I/O, Collided Page FaultsInbvDriverInitialize function, Initializing the Kernel and Executive SubsystemsInbvEnableBootDriver function, Initializing the Kernel and Executive Subsystemsincreaseuserva configuration, User Stacks, Crash Dump Filesincreaseuserva element, The BIOS Boot Sector and Bootmgrincreasing thresholds (processors), Thresholds and Policy Settingsindex allocations, File Records, Resident and Nonresident Attributes, Indexingindex buffers, Indexingindex root attributes, Resident and Nonresident Attributes, Resident and Nonresident Attributes, Indexingindexing, General Indexing Facility, The Change Journal File, Indexing–Indexing, Indexing, IndexingInetinfo.exe (Internet Information Server), x86 Address Space LayoutsINF database, Initializing the Kernel and Executive SubsystemsINF files, Device Stack Driver Loading, Driver Installationdevice keys, Device Stack Driver Loadingfunction driver files, Driver Installationinfinite loops, Hung or Unresponsive SystemsInitBootProcessor function, Initializing the Kernel and Executive Subsystemsinitialconsoleinput element, The BIOS Boot Sector and Bootmgrinitialization, Structure of a Driver, Kernel-Mode Driver Framework (KMDF), Structure and Operation of a KMDF Driver, Device Enumeration–Device Enumeration, Device EnumerationKMDF routines, Kernel-Mode Driver Framework (KMDF), Structure and Operation of a KMDF Driverorder of, Device Enumeration–Device Enumeration, Device Enumerationroutines, Structure of a DriverInitiator service, iSCSI DriversInitSafeBoot function, Driver Loading in Safe ModeInitSafeBootMode function, Driver Loading in Safe Modeinjected threads, Process Reflectioninput buffers, IRP Buffer Management–I/O Request to a Single-Layered Driver, IRP Buffer Management, I/O Request to a Single-Layered Driverinput device drivers, Types of Device Driversinstallation, The Plug and Play (PnP) Manager, Driver Installation, Driver Installation, Driver Installation, Driver Installation, Driver Installation, Boot Process–BIOS Preboot, BIOS Preboot, BIOS Preboot, BCD MisconfigurationPnP manager’s handling, The Plug and Play (PnP) Manager, Driver Installation, Driver Installation, Driver Installation, Driver Installation, Driver InstallationWindows boot preparations, Boot Process–BIOS Preboot, BIOS Preboot, BIOS PrebootWindows Update, BCD Misconfigurationinstance IDs, Device Stack Driver Loadinginstances, Opening Devices, KMDF Data Model, Monitoring Pool Usageopen files, Opening Devicespool tags, Monitoring Pool UsageWMI, KMDF Data Modelinstruction pointer register, 0xD1 - DRIVER_IRQL_NOT_LESS_OR_EQUALinswapping stacks, Memory Manager ComponentsINT 3 instruction, 0x8E - KERNEL_MODE_EXCEPTION_NOT_HANDLEDintegrity check mechanisms, Heap Security Features, The BIOS Boot Sector and Bootmgr, When There Is No Crash Dumpintegrityservices element, The BIOS Boot Sector and BootmgrIntel Macintosh machines, The UEFI Boot Processintelligent read-ahead (caching), Virtual Block Caching, Per-File Cache Data Structures, Intelligent Read-Ahead, Intelligent Read-AheadInteractive Services Detection service (UIODetect.exe), Smss, Csrss, and Wininitinternal error reporting servers, Windows Error Reporting–Windows Error Reporting, Windows Error Reporting, Windows Error Reportinginternal synchronization, Internal SynchronizationInternet attachments, Multiple Data StreamsInternet Information Server (Inetinfo.exe), x86 Address Space LayoutsInternet SCSI (iSCSI), Prioritization Strategies, Disk Devices, iSCSI Drivers, Booting from iSCSIInternet Storage Name Service (iSNS), iSCSI Drivers, Multipath I/O (MPIO) Driversinterrupt controller, Initializing the Kernel and Executive Subsystemsinterrupt dispatch table, Servicing an Interruptinterrupt-driven devices, Structure of a Driverinterrupt-servicing DPC routines, Structure of a Driverinterrupts, I/O Request to a Single-Layered Driver–I/O Request to a Single-Layered Driver, I/O Request to a Single-Layered Driver, Servicing an Interrupt, KMDF Data Model, User-Mode Driver Framework (UMDF)in IRP processing, I/O Request to a Single-Layered Driver–I/O Request to a Single-Layered Driver, I/O Request to a Single-Layered DriverKMDF objects, KMDF Data Modelservicing, Servicing an InterruptUMDF, User-Mode Driver Framework (UMDF)interval clock timer interrupts, Initializing the Kernel and Executive Subsystemsinvalid addresses, 0xD1 - DRIVER_IRQL_NOT_LESS_OR_EQUAL, 0xC5 - DRIVER_CORRUPTED_EXPOOL, 0xC5 - DRIVER_CORRUPTED_EXPOOL, 0xC5 - DRIVER_CORRUPTED_EXPOOLinvalid IRQL, Driver Verifierinvalid pages, Driver Verifierinvalid PFN states, Page Frame Number Databaseinvalid PTEs, Page Fault Handling, Prototype PTEs, Prototype PTEs, Prototype PTEsINVALID_HANDLE_VALUE value, Shared Memory and Mapped FilesIoAdjustStackStizeForRedirection API, I/O Requests to Layered DriversIoAsynchronousPageWrite function, Memory Manager’s Modified and Mapped Page WriterIoBoostCount function, I/O Priority Inversion Avoidance (I/O Priority Inheritance)IoCallDriver function, I/O Request to a Single-Layered Driver, Explicit File I/OIoCompleteRequest function, I/O Request to a Single-Layered DriverIoCompletion executive object, The IoCompletion Object, I/O Completion Port OperationIoCreateDevice function, Driver Objects and Device ObjectsIoCreateDeviceSecure function, Driver Objects and Device ObjectsIoCreateFile function, Opening DevicesIoCreateFileEx function, Opening DevicesIoCreateFileSpecifyDeviceObjectHint function, Opening DevicesIOCTL requests, KMDF I/O Model, Disk Sector Format, File Deletion and the Trim CommandKMDF, KMDF I/O Modelquerying sector size, Disk Sector Formattrim command and, File Deletion and the Trim CommandIofCallDriver function, Stack TrashesIoGetTransactionParameterBlock function, Opening DevicesIoPageRead function, Explicit File I/OIopBootLog function, Boot Logging in Safe ModeIopCancelAlertedRequest function, I/O Cancellation for Thread TerminationIopCopyBootLogRegistryToFile function, Boot Logging in Safe ModeIopInvalidDeviceRequest function, IRP Stack LocationsIopLoadDriver function, Driver Loading in Safe ModeIopParseDevice function, Explicit File I/OIoPriority.exe, I/O Priority Boosts and Bumps–Bandwidth Reservation (Scheduled File I/O), Bandwidth Reservation (Scheduled File I/O)IopSafeBootDriverLoad function, Driver Loading in Safe ModeIopSynchronousServiceTail function, I/O Cancellation for Thread TerminationIoReadPartitionTableEx function, Partition ManagerIoRegisterContainerNotification function, Container NotificationsIoRegisterDeviceInterface function, Driver Objects and Device ObjectsIoRegisterFileSystem function, Volume MountingIoRegisterPriorityCallback function, I/O Priority Inversion Avoidance (I/O Priority Inheritance)IoRemoveIoCompletion function, I/O Completion Port OperationIoSessionStateNotification class, Container NotificationsIoSetCompletionRoutineEx function, Driver Verifier, Driver VerifierIoSetDeviceInterfaceState function, Driver Objects and Device ObjectsIoSetIoPriorityHint function, Prioritization StrategiesIP networks, iSCSI DriversIRP credits, Balance Set Manager and SwapperIRP dispatches, Stack TrashesIRP Logging option, Driver VerifierIRP look-aside lists, I/O Request Packets, I/O Requests to Layered DriversIRP stack locations, I/O Request to a Single-Layered Driver, Servicing an Interrupt, Completing an I/O Request, Completing an I/O Request, I/O Requests to Layered DriversIRPs (I/O request packets), The I/O Manager, The I/O Manager, Opening Devices, I/O Request Packets, I/O Request Packets, IRP Stack Locations, IRP Stack Locations, IRP Buffer Management–I/O Request to a Single-Layered Driver, I/O Request to a Single-Layered Driver, Completing an I/O Request, Completing an I/O Request, Completing an I/O Request, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers–I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Cancellation–I/O Completion Ports, User-Initiated I/O Cancellation, I/O Cancellation for Thread Termination, I/O Cancellation for Thread Termination, I/O Cancellation for Thread Termination, I/O Completion Ports, Prioritization Strategies, Prioritization Strategies, Driver Verifier, KMDF I/O Model–KMDF I/O Model, KMDF I/O Model, KMDF I/O Model, KMDF I/O Model, Device Enumeration, Single, Centralized System Cache, Explicit File I/O, Process Monitorassociated groups, I/O Requests to Layered Driversbuffer management, IRP Buffer Management–I/O Request to a Single-Layered Driver, I/O Request to a Single-Layered Drivercache interactions, Single, Centralized System Cachecancellation, I/O Cancellation–I/O Completion Ports, User-Initiated I/O Cancellation, I/O Cancellation for Thread Termination, I/O Cancellation for Thread Termination, I/O Cancellation for Thread Termination, I/O Completion Portscompletion, Completing an I/O Request, Completing an I/O Request, Completing an I/O Requestcreating, The I/O Managerdefined, I/O Request Packetsdevice tree flow, Device Enumerationexamining, I/O Requests to Layered Drivers–I/O Requests to Layered Drivers, I/O Requests to Layered Driversfile object interaction, Explicit File I/OKMDF handling, KMDF I/O Model–KMDF I/O Model, KMDF I/O Model, KMDF I/O Model, KMDF I/O Modellayered driver processing, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Requests to Layered Drivers, I/O Requests to Layered Driverslists, Opening Deviceslook-aside lists, I/O Request Packetspriority strategies, Prioritization Strategies, Prioritization StrategiesProcess Manager and, Process Monitorprocessing, The I/O Managerrecording usage, Driver Verifierreuse, I/O Requests to Layered Driversstack locations, IRP Stack Locations, IRP Stack Locations, I/O Requests to Layered DriversIRP_MJ_CREATE IRPs, Explicit File I/OIRP_MJ_PNP IRPs, Driver Objects and Device ObjectsIRP_MJ_READ IRPs, Explicit File I/OIRP_MJ_WRITE IRPs, Explicit File I/O, Memory Manager’s Modified and Mapped Page WriterIRP_MN_START_DEVICE IRPs, Driver Objects and Device ObjectsIRP_MU_CREATE command, File System Filter DriversIRQLs (interrupt request levels), Completing an I/O Request–Synchronization, Synchronization, Synchronization, Driver Verifier, Driver Verifier, The Blue ScreenAPCs and, Completing an I/O Request–Synchronization, Synchronizationcrashes, The Blue Screendrivers executing at elevated, Driver Verifierpreempting driver execution, Synchronizationspecial pool allocations and, Driver VerifierIRQL_NOT_LESS_OR_EQUAL stop code, 0xC5 - DRIVER_CORRUPTED_EXPOOLISA buses, Structure and Operation of a KMDF Driver, The BIOS Boot Sector and BootmgriSCSI Boot Firmware Table (iBFT), Booting from iSCSIiSCSI Control Panel applet, iSCSI DriversiSCSI devices, Prioritization Strategies, Storage Management, Disk Devices, iSCSI Drivers, iSCSI Drivers, Booting from iSCSIiSCSI Host Bus Adapter (HBA), Booting from iSCSIiSCSI Initiator, iSCSI Drivers, iSCSI Drivers, Booting from iSCSIIscsicli.exe utility, iSCSI Drivers, iSCSI DriversiSNS (Internet Storage Name Service), iSCSI DriversISO images, The BIOS Boot Sector and BootmgrISO-13346 format, UDFISO-9660 format, CDFSisolating transaction operations, Isolation–Transactional APIs, Isolation, Isolation, Transactional APIsISRs (interrupt service routines), Hung or Unresponsive Systems, Hung or Unresponsive Systems–Hung or Unresponsive Systems, Hung or Unresponsive Systemshung systems, Hung or Unresponsive Systemsmonitoring keystrokes, Hung or Unresponsive Systems–Hung or Unresponsive Systems, Hung or Unresponsive SystemsItanium firmware, LDM and GPT or MBR-Style Partitioning, Large and Small Pages, The UEFI Boot Process