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When does segment selector comes in picture. The line in Intel Guide says:

"Each segment descriptor has an associated segment selector. A segment selector provides the software that uses it with an index into the GDT or LDT (the offset of its associated segment descriptor), a global/local flag (determines whether the selector points to the GDT or the LDT), and access rights information."

I didn't quite get it. Are there separate segment selector register(s)? How is it calculated? Why we need it.

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3 Answers

In real mode, access to the memory is segmented, i.e. it is accessed by specifying the segment location and the segment offset. The physical address is then calculated by adding the offset to the shifted-left segment location. Both the segment location segment and the segment offset were 16 bits.

Because of Intel's design choices, which were apparently very highly focused on backwards compatibility, they chose to keep the 16-bit size of the segment registers. That caused problems when protected mode came into the picture. In protected mode, a GDT (Global Descriptor Table) and a LDT (Local Descriptor Table) are kept somewhere in memory. These descriptors have all the necessary data about the segments that the processor works with. In order to access these descriptors, you need a segment selector, which is essentially an index into the array of segment descriptors (i.e. the LDT or GDT).

Essentially, specifying 5 as the value of the segment selector causes the CPU to use the 5th (indexing starts at zero) descriptor in the Local/Global Descriptor Table.

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Then, how to obtain the segment selector? –  Albert Feb 2 '12 at 15:01
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You can't obtain it, it's a value you set based on which of the segment descriptors you want to use in the application. –  Daniel Kamil Kozar Feb 2 '12 at 15:29
    
So we need to know the segment selector to select the segment descriptor. Now when a context switch occurs from where is the selector taken? –  Albert Feb 3 '12 at 13:30
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You use LGDT/LLDT/LIDT instructions to load descriptor tables. Then any value you assign to a selector becomes an index into descriptor table. For instance assigning 3 to ES means value of 3rd entry in descriptor table you loaded before. and any access using ES: prefix will cause memory to be accessed using that entry's contents. –  ssg Feb 3 '12 at 14:49
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In a flat memory model segments don't mean much. However IA32 protected mode allows more flavors than a flat model, such as addressing different physical memory ranges using different segment registers (called selectors in protected mode).

For instance Borland Pascal's DPMI infrastructure alllowed writing to executable code by using an alternative selector (CS+$400), which had different privilege settings for the same physical memory range.

In modern operating systems those segments aren't used much and usually point to the same descriptor tables with one exception on Windows where FS points to TEB (thread environment block).

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up vote 1 down vote accepted

So what happens is:

Whenever a program is loaded, the linking loader loads the "Segment Registers" with the appropriate selectors.
A Segment Register ( e.g. CS, DS, SS, etc) is divided in two parts: Visible and Hidden.
It is the visible part which is loaded by the loader with the appropriate value.
This value is an index in GDT or LDT, depending on the TI flag of the selector.
The processor loads the hidden part by itself. The information in hidden part is the segment base address in the linear address space, segment limit, access information.

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