Control register
A control register is a processor register which changes or controls the general behavior of a CPU or other digital device. Common tasks performed by control registers include interrupt control, switching the addressing mode, paging control, and coprocessor control.
Control registers in [x64] series
CR0
The CR0 register is 32 bits long on the 386 and higher processors. On x64 processors in long mode, it is 64 bits long. CR0 has various control flags that modify the basic operation of the processor.| Bit | Name | Full Name | Description |
| 0 | PE | Protected Mode Enable | If 1, system is in protected mode, else system is in real mode |
| 1 | MP | Monitor co-processor | Controls interaction of WAIT/FWAIT instructions with TS flag in CR0 |
| 2 | EM | Emulation | If set, no x87 floating-point unit present, if clear, x87 FPU present |
| 3 | TS | Task switched | Allows saving x87 task context upon a task switch only after x87 instruction used |
| 4 | ET | Extension type | On the 386, it allowed to specify whether the external math coprocessor was an 80287 or 80387 |
| 5 | NE | Numeric error | Enable internal x87 floating point error reporting when set, else enables PC style x87 error detection |
| 16 | WP | Write protect | When set, the CPU can't write to read-only pages when privilege level is 0 |
| 18 | AM | Alignment mask | Alignment check enabled if AM set, AC flag set, and privilege level is 3 |
| 29 | NW | Not-write through | Globally enables/disable write-through caching |
| 30 | CD | Cache disable | Globally enables/disable the memory cache |
| 31 | PG | Paging | If 1, enable paging and use the register, else disable paging. |
CR1
Reserved, the CPU will throw a #UD exception when trying to access it.CR2
Contains a value called Page Fault Linear Address. When a page fault occurs, the address the program attempted to access is stored in the CR2 register.CR3
Used when virtual addressing is enabled, hence when the PG bit is set in CR0. CR3 enables the processor to translate linear addresses into physical addresses by locating the page directory and page tables for the current task. Typically, the upper 20 bits of CR3 become the page directory base register, which stores the physical address of the first page directory entry. If the PCIDE bit in [|CR4] is set, the lowest 12 bits are used for the process-context identifier.CR4
Used in protected mode to control operations such as virtual-8086 support, enabling I/O breakpoints, page size extension and machine-check exceptions.| Bit | Name | Full Name | Description |
| 0 | VME | Virtual 8086 Mode Extensions | If set, enables support for the virtual interrupt flag in virtual-8086 mode. |
| 1 | PVI | Protected-mode Virtual Interrupts | If set, enables support for the virtual interrupt flag in protected mode. |
| 2 | TSD | Time Stamp Disable | If set, RDTSC instruction can only be executed when in ring 0, otherwise RDTSC can be used at any privilege level. |
| 3 | DE | Debugging Extensions | If set, enables debug register based breaks on I/O space access. |
| 4 | PSE | Page Size Extension | If unset, page size is 4 KiB, else page size is increased to 4 MiB If PAE is enabled or the processor is in x86-64 long mode this bit is ignored. |
| 5 | PAE | Physical Address Extension | If set, changes page table layout to translate 32-bit virtual addresses into extended 36-bit physical addresses. |
| 6 | MCE | Machine Check Exception | If set, enables machine check interrupts to occur. |
| 7 | PGE | Page Global Enabled | If set, address translations may be shared between address spaces. |
| 8 | PCE | Performance-Monitoring Counter enable | If set, RDPMC can be executed at any privilege level, else RDPMC can only be used in ring 0. |
| 9 | OSFXSR | Operating system support for FXSAVE and FXRSTOR instructions | If set, enables Streaming SIMD Extensions instructions and fast FPU save & restore. |
| 10 | OSXMMEXCPT | Operating System Support for Unmasked SIMD Floating-Point Exceptions | If set, enables unmasked SSE exceptions. |
| 11 | UMIP | User-Mode Instruction Prevention | If set, the SGDT, SIDT, SLDT, SMSW and STR instructions cannot be executed if CPL > 0. |
| 12 | LA57 | If set, enables 5-Level Paging. | |
| 13 | VMXE | Virtual Machine Extensions Enable | see Intel VT-x x86 virtualization. |
| 14 | SMXE | Safer Mode Extensions Enable | see Trusted Execution Technology |
| 16 | FSGSBASE | Enables the instructions RDFSBASE, RDGSBASE, WRFSBASE, and WRGSBASE. | - |
| 17 | PCIDE | PCID Enable | If set, enables process-context identifiers. |
| 18 | OSXSAVE | XSAVE and Processor Extended States Enable | |
| 20 | Supervisor Mode Execution Protection Enable | If set, execution of code in a higher ring generates a fault. | |
| 21 | SMAP | Supervisor Mode Access Prevention Enable | If set, access of data in a higher ring generates a fault. |
| 22 | PKE | Protection Key Enable | See Intel 64 and IA-32 Architectures Software Developer’s Manual. |
CR5-7
Reserved, same case as CR1.Additional Control registers in [x86-64] series
EFER
Extended Feature Enable Register is a model-specific register added in the AMD K6 processor, to allow enabling the SYSCALL/SYSRET instruction, and later for entering and exiting long mode. This register becomes architectural in AMD64 and has been adopted by Intel as IA32_EFER. Its MSR number is 0xC0000080.| Bit | Purpose |
| 0 | SCE |
| 1 | DPE |
| 2 | SEWBED |
| 3 | GEWBED |
| 4 | L2D |
| 5-7 | Reserved, Read as Zero |
| 8 | LME |
| 9 | Reserved |
| 10 | LMA |
| 11 | NXE |
| 12 | SVME |
| 13 | LMSLE |
| 14 | FFXSR |
| 15 | TCE |
| 16–63 | Reserved |
CR8
CR8 is a new register accessible in 64-bit mode using the REX prefix. CR8 is used to prioritize external interrupts and is referred to as the task-priority register.The AMD64 architecture allows software to define up to 15 external interrupt-priority classes. Priority classes are numbered from 1 to 15, with priority-class 1 being the lowest and priority-class 15 the highest. CR8 uses the four low-order bits for specifying a task priority and the remaining 60 bits are reserved and must be written with zeros.
System software can use the TPR register to temporarily block low-priority interrupts from interrupting a high-priority task. This is accomplished by loading TPR with a value corresponding to the highest-priority interrupt that is to be blocked. For example, loading TPR with a value of 9 blocks all interrupts with a priority class of 9 or less, while allowing all interrupts with a priority class of 10 or more to be recognized. Loading TPR with 0 enables all external interrupts. Loading TPR with 15 disables all external interrupts.
The TPR is cleared to 0 on reset.
XCR0 and XSS
XCR0, or Extended Control Register 0, is a control register which is used to toggle the storing or loading of registers related to specific CPU features using the XSAVE/XRSTOR instructions. It is also used with some features to enable or disable the processor's ability to execute their corresponding instructions. It can be accessed using the privileged XSETBV and nonprivileged XGETBV instructions.| Bit | Purpose |
| 0 | X87 |
| 1 | SSE |
| 2 | AVX |
| 3 | BNDREG |
| 4 | BNDCSR |
| 5 | opmask |
| 6 | ZMM_hi256 |
| 7 | Hi16_ZMM |
| 8 | Reserved |
| 9 | PKRU |
| 10 | Reserved |
| 11 | Control-flow Enforcement Technology User State |
| 12 | Control-flow Enforcement Technology Supervisor State |
| 13 | XAAD |
| 14–63 | Reserved |
There is also the IA32_XSS MSR, which is located at address 0DA0h. The IA32_XSS MSR controls bits of XCR0 which are considered to be "supervisor" state, and should be invisible to regular programs. It operates with the privileged XSAVES and XRSTORS instructions by adding supervisor state to the data they operate with. Put simply, if the X87 state was enabled in XCR0 and PT state was enabled in IA32_XSS, the XSAVE instruction would only store X87 state, while the privileged XSAVES would store both X87 and PT states. Because it is an MSR, it can be accessed using the RDMSR and WRMSR instructions.
| Bit | Purpose |
| 0–7 | Reserved; must be 0. |
| 8 | PT |
| 9–12 | Reserved; must be 0. |
| 13 | HDC |
| 14–63 | Reserved; must be 0. |