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57 lines
2.6 KiB
Plaintext
57 lines
2.6 KiB
Plaintext
.\"
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.\" ----------------------------------------------------------------------------
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.\" "THE BEER-WARE LICENSE" (Revision 42):
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.\" <phk@login.dknet.dk> wrote this file. As long as you retain this notice you
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.\" can do whatever you want with this stuff. If we meet some day, and you think
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.\" this stuff is worth it, you can buy me a beer in return. Poul-Henning Kamp
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.\" ----------------------------------------------------------------------------
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.\"
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.\" $Id$
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.\"
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.ds RH The kernel and memory
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.NH
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The kernel and memory
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.PP
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Brk(2) isn't a particularly convenient interface,
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it was probably made more to fit the memory model of the
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hardware being used, than to fill the needs of the programmers.
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.PP
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Before paged and/or virtual memory systems became
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common, the most popular memory management facility used for
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UNIX was segments.
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This was also very often the only vehicle for imposing protection on
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various parts of memory.
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Depending on the hardware, segments can be anything, and consequently
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how the kernels exploited them varied a lot from UNIX to UNIX and from
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machine to machine.
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.PP
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Typically a process would have one segment for the text section, one
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for the data and bss section combined and one for the stack.
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On some systems the text shared a segment with the data and bss, and was
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consequently just as writable as them.
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.PP
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In this setup all the brk(2) system call has to do is to find the
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right amount of free storage, possibly moving things around in physical
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memory, maybe even swapping out a segment or two to make space,
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and change the upper limit on the data segment according to the address given.
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.PP
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In a more modern page based virtual memory implementation this is still
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pretty much the situation, except that the granularity is now pages:
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The kernel finds the right number of free pages, possibly paging some
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pages out to free them up, and then plugs them into the page-table of
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the process.
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.PP
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As such the difference is very small, the real difference is that in
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the old world of swapping, either the entire process was in primary
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storage or it wouldn't be selected to be run. In a modern VM kernel,
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a process might only have a subset of its pages in primary memory,
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the rest will be paged in, if and when the process tries to access them.
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.PP
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Only very few programs deal with the brk(2) interface directly.
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The few that do usually have their own memory management facilities.
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LISP or FORTH interpreters are good examples.
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Most other programs use the
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.B malloc(3)
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interface instead, and leave it to the malloc implementation to
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use brk(2) to get storage allocated from the kernel.
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