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15.1 Executing 8086 Code

The processor executes in V86 mode when the VM (virtual machine) bit in the EFLAGS register is set. The processor tests this flag under two general conditions:
  1. When loading segment registers to know whether to use 8086-style address formation.
  2. When decoding instructions to determine which instructions are sensitive to IOPL.
Except for these two modifications to its normal operations, the 80386 in V86 mode operated much as in protected mode.

15.1.1 Registers and Instructions

The register set available in V86 mode includes all the registers defined for the 8086 plus the new registers introduced by the 80386: FS, GS, debug registers, control registers, and test registers. New instructions that explicitly operate on the segment registers FS and GS are available, and the new segment-override prefixes can be used to cause instructions to utilize FS and GS for address calculations. Instructions can utilize 32-bit operands through the use of the operand size prefix.

8086 programs running as V86 tasks are able to take advantage of the new applications-oriented instructions added to the architecture by the introduction of the 80186/80188, 80286 and 80386:

15.1.2 Linear Address Formation

In V86 mode, the 80386 processor does not interpret 8086 selectors by referring to descriptors; instead, it forms linear addresses as an 8086 would. It shifts the selector left by four bits to form a 20-bit base address. The effective address is extended with four high-order zeros and added to the base address to create a linear address as Figure 15-1 illustrates.

Because of the possibility of a carry, the resulting linear address may contain up to 21 significant bits. An 8086 program may generate linear addresses anywhere in the range 0 to 10FFEFH (one megabyte plus approximately 64 Kbytes) of the task's linear address space.

V86 tasks generate 32-bit linear addresses. While an 8086 program can only utilize the low-order 21 bits of a linear address, the linear address can be mapped via page tables to any 32-bit physical address.

Unlike the 8086 and 80286, 32-bit effective addresses can be generated (via the address-size prefix); however, the value of a 32-bit address may not exceed 65,535 without causing an exception. For full compatibility with 80286 real-address mode, pseudo-protection faults (interrupt 12 or 13 with no error code) occur if an address is generated outside the range 0 through 65,535.


up: Chapter 15 -- Virtual 8086 Mode
prev: Chapter 15 -- Virtual 8086 Mode
next: 15.2 Structure of a V86 Task