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17-18 Vol. 3

8086 EMULATION

in the previous paragraphs. These sections describe three possible types of interrupt

and exception handlers:

• Protected-mode interrupt and exceptions handlers — These are the

standard handlers that the processor calls through the protected-mode IDT.

• Virtual-8086 monitor interrupt and exception handlers — These handlers

are resident in the virtual-8086 monitor, and they are commonly accessed

through a general-protection exception (#GP, interrupt 13) that is directed to the

protected-mode general-protection exception handler.

• 8086 program interrupt and exception handlers — These handlers are part

of the 8086 program that is running in virtual-8086 mode.

The following sections describe how these handlers are used, depending on the

selected class and method of interrupt and exception handling.

17.3.1 Class 1—Hardware Interrupt and Exception Handling in

Virtual-8086 Mode

In virtual-8086 mode, the Pentium, P6 family, Pentium 4, and Intel Xeon processors

handle hardware interrupts and exceptions in the same manner as they are handled

by the Intel486 and Intel386 processors. They invoke the protected-mode interrupt

or exception handler that the interrupt or exception vector points to in the IDT. Here,

the IDT entry must contain either a 32-bit trap or interrupt gate or a task gate. The

following sections describe various ways that a virtual-8086 mode interrupt or excep

tion can be handled after the protected-mode handler has been invoked.

See Section 17.3.2, “Class 2—Maskable Hardware Interrupt Handling in Virtual-8086

Mode Using the Virtual Interrupt Mechanism”, for a description of the virtual interrupt

mechanism that is available for handling maskable hardware interrupts while in

virtual-8086 mode. When this mechanism is either not available or not enabled,

maskable hardware interrupts are handled in the same manner as exceptions, as

described in the following sections.

17.3.1.1 Handling an Interrupt or Exception Through a Protected-Mode

Trap or Interrupt Gate

When an interrupt or exception vector points to a 32-bit trap or interrupt gate in the

IDT, the gate must in turn point to a nonconforming, privilege-level 0, code segment.

When accessing this code segment, processor performs the following steps.

1. Switches to 32-bit protected mode and privilege level 0.

2. Saves the state of the processor on the privilege-level 0 stack. The states of the

EIP, CS, EFLAGS, ESP, SS, ES, DS, FS, and GS registers are saved (see

Figure 17-4).

3. Clears the segment registers. Saving the DS, ES, FS, and GS registers on the

stack and then clearing the registers lets the interrupt or exception handler safely