2008-04-17 17:03:07 -04:00
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Copyright 1999, 2000, 2001, 2002 Free Software Foundation, Inc.
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This file is part of the GNU MP Library.
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The GNU MP Library is free software; you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as published by
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the Free Software Foundation; either version 2.1 of the License, or (at your
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option) any later version.
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The GNU MP Library is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
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License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with the GNU MP Library; see the file COPYING.LIB. If not, write to
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the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
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02110-1301, USA.
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X86 MPN SUBROUTINES
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This directory contains mpn functions for various 80x86 chips.
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CODE ORGANIZATION
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x86 i386, generic
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x86/i486 i486
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x86/pentium Intel Pentium (P5, P54)
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x86/pentium/mmx Intel Pentium with MMX (P55)
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x86/p6 Intel Pentium Pro
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x86/p6/mmx Intel Pentium II, III
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x86/p6/p3mmx Intel Pentium III
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x86/k6 \ AMD K6
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x86/k6/mmx /
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x86/k6/k62mmx AMD K6-2
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x86/k7 \ AMD Athlon
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x86/k7/mmx /
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x86/pentium4 \
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x86/pentium4/mmx | Intel Pentium 4
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x86/pentium4/sse2 /
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The top-level x86 directory contains blended style code, meant to be
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reasonable on all x86s.
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STATUS
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The code is well-optimized for AMD and Intel chips, but there's nothing
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specific for Cyrix chips, nor for actual 80386 and 80486 chips.
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ASM FILES
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The x86 .asm files are BSD style assembler code, first put through m4 for
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macro processing. The generic mpn/asm-defs.m4 is used, together with
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mpn/x86/x86-defs.m4. See comments in those files.
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The code is meant for use with GNU "gas" or a system "as". There's no
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support for assemblers that demand Intel style code.
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STACK FRAME
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m4 macros are used to define the parameters passed on the stack, and these
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act like comments on what the stack frame looks like too. For example,
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mpn_mul_1() has the following.
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defframe(PARAM_MULTIPLIER, 16)
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defframe(PARAM_SIZE, 12)
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defframe(PARAM_SRC, 8)
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defframe(PARAM_DST, 4)
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PARAM_MULTIPLIER becomes `FRAME+16(%esp)', and the others similarly. The
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return address is at offset 0, but there's not normally any need to access
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that.
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FRAME is redefined as necessary through the code so it's the number of bytes
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pushed on the stack, and hence the offsets in the parameter macros stay
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correct. At the start of a routine FRAME should be zero.
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deflit(`FRAME',0)
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...
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deflit(`FRAME',4)
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...
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deflit(`FRAME',8)
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...
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Helper macros FRAME_pushl(), FRAME_popl(), FRAME_addl_esp() and
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FRAME_subl_esp() exist to adjust FRAME for the effect of those instructions,
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and can be used instead of explicit definitions if preferred.
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defframe_pushl() is a combination FRAME_pushl() and defframe().
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There's generally some slackness in redefining FRAME. If new values aren't
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going to get used then the redefinitions are omitted to keep from cluttering
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up the code. This happens for instance at the end of a routine, where there
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might be just four pops and then a ret, so FRAME isn't getting used.
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Local variables and saved registers can be similarly defined, with negative
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offsets representing stack space below the initial stack pointer. For
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example,
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defframe(SAVE_ESI, -4)
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defframe(SAVE_EDI, -8)
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defframe(VAR_COUNTER,-12)
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deflit(STACK_SPACE, 12)
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Here STACK_SPACE gets used in a "subl $STACK_SPACE, %esp" to allocate the
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space, and that instruction must be followed by a redefinition of FRAME
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(setting it equal to STACK_SPACE) to reflect the change in %esp.
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Definitions for pushed registers are only put in when they're going to be
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used. If registers are just saved and restored with pushes and pops then
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definitions aren't made.
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ASSEMBLER EXPRESSIONS
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Only addition and subtraction seem to be universally available, certainly
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that's all the Solaris 8 "as" seems to accept. If expressions are wanted
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then m4 eval() should be used.
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In particular note that a "/" anywhere in a line starts a comment in Solaris
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"as", and in some configurations of gas too.
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addl $32/2, %eax <-- wrong
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addl $eval(32/2), %eax <-- right
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Binutils gas/config/tc-i386.c has a choice between "/" being a comment
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anywhere in a line, or only at the start. FreeBSD patches 2.9.1 to select
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the latter, and from 2.9.5 it's the default for GNU/Linux too.
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ASSEMBLER COMMENTS
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Solaris "as" doesn't support "#" commenting, using /* */ instead. For that
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reason "C" commenting is used (see asm-defs.m4) and the intermediate ".s"
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files have no comments.
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Any comments before include(`../config.m4') must use m4 "dnl", since it's
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only after the include that "C" is available. By convention "dnl" is also
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used for comments about m4 macros.
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TEMPORARY LABELS
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Temporary numbered labels like "1:" used as "1f" or "1b" are available in
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"gas" and Solaris "as", but not in SCO "as". Normal L() labels should be
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used instead, possibly with a counter to make them unique, see jadcl0() in
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x86-defs.m4 for instance. A separate counter for each macro makes it
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possible to nest them, for instance movl_text_address() can be used within
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an ASSERT().
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"1:" etc must be avoided in gcc __asm__ blocks too. "%=" for generating a
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unique number looks like a good alternative, but is that actually a
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documented feature? In any case this problem doesn't currently arise.
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ZERO DISPLACEMENTS
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In a couple of places addressing modes like 0(%ebx) with a byte-sized zero
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displacement are wanted, rather than (%ebx) with no displacement. These are
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either for computed jumps or to get desirable code alignment. Explicit
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.byte sequences are used to ensure the assembler doesn't turn 0(%ebx) into
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(%ebx). The Zdisp() macro in x86-defs.m4 is used for this.
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Current gas 2.9.5 or recent 2.9.1 leave 0(%ebx) as written, but old gas
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1.92.3 changes it. In general changing would be the sort of "optimization"
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an assembler might perform, hence explicit ".byte"s are used where
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necessary.
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SHLD/SHRD INSTRUCTIONS
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The %cl count forms of double shift instructions like "shldl %cl,%eax,%ebx"
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must be written "shldl %eax,%ebx" for some assemblers. gas takes either,
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Solaris "as" doesn't allow %cl, gcc generates %cl for gas and NeXT (which is
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gas), and omits %cl elsewhere.
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For GMP an autoconf test GMP_ASM_X86_SHLDL_CL is used to determine whether
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%cl should be used, and the macros shldl, shrdl, shldw and shrdw in
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mpn/x86/x86-defs.m4 pass through or omit %cl as necessary. See the comments
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with those macros for usage.
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IMUL INSTRUCTION
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GCC config/i386/i386.md (cvs rev 1.187, 21 Oct 00) under *mulsi3_1 notes
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that the following two forms produce identical object code
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imul $12, %eax
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imul $12, %eax, %eax
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but that the former isn't accepted by some assemblers, in particular the SCO
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OSR5 COFF assembler. GMP follows GCC and uses only the latter form.
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(This applies only to immediate operands, the three operand form is only
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valid with an immediate.)
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DIRECTION FLAG
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The x86 calling conventions say that the direction flag should be clear at
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function entry and exit. (See iBCS2 and SVR4 ABI books, references below.)
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Although this has been so since the year dot, it's not absolutely clear
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whether it's universally respected. Since it's better to be safe than
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sorry, GMP follows glibc and does a "cld" if it depends on the direction
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flag being clear. This happens only in a few places.
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POSITION INDEPENDENT CODE
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Coding Style
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Defining the symbol PIC in m4 processing selects SVR4 / ELF style
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position independent code. This is necessary for shared libraries
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because they can be mapped into different processes at different virtual
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addresses. Actually, relocations are allowed but text pages with
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relocations aren't shared, defeating the purpose of a shared library.
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The GOT is used to access global data, and the PLT is used for
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functions. The use of the PLT adds a fixed cost to every function call,
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and the GOT adds a cost to any function accessing global variables.
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These are small but might be noticeable when working with small
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operands.
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Scope
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2009-02-12 07:25:23 -05:00
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It's intended, as a matter of policy, that references within libmpir are
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resolved within libmpir. Certainly there's no need for an application to
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replace any internals, and we take the view that there's no value in an
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application subverting anything documented either.
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2009-02-12 07:25:23 -05:00
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Resolving references within libmpir in theory means calls can be made with a
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plain PC-relative call instruction, which is faster and smaller than going
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through the PLT, and data references can be similarly PC-relative, saving a
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GOT entry and fetch from there. Unfortunately the normal linker behaviour
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doesn't allow us to do this.
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By default an R_386_PC32 PC-relative reference, either for a call or for
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data, is left in libmpir.so by the linker so that it can be resolved at
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runtime to a location in the application or another shared library. This
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means a text segment relocation which we don't want.
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-Bsymbolic
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Under the "-Bsymbolic" option, the linker resolves references to symbols
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within libmpir.so. This gives us the desired effect for R_386_PC32,
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ie. it's resolved at link time. It also resolves R_386_PLT32 calls
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directly to their target without creating a PLT entry (though if this is
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done to normal compiler-generated code it still leaves a setup of %ebx
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to _GLOBAL_OFFSET_TABLE_ which may then be unnecessary).
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Unfortunately -Bsymbolic does bad things to global variables defined in
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a shared library but accessed by non-PIC code from the mainline (or a
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static library).
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The problem is that the mainline needs a fixed data address to avoid
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text segment relocations, so space is allocated in its data segment and
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the value from the variable is copied from the shared library's data
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segment when the library is loaded. Under -Bsymbolic, however,
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references in the shared library are then resolved still to the shared
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library data area. Not surprisingly it bombs badly to have mainline
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code and library code accessing different locations for what should be
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one variable.
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Note that this -Bsymbolic effect for the shared library is not just for
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R_386_PC32 offsets which might have been cooked up in assembler, but is
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done also for the contents of GOT entries. -Bsymbolic simply applies a
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general rule that symbols are resolved first from the local module.
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Visibility Attributes
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GCC __attribute__ ((visibility ("protected"))), which is available in
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recent versions, eg. 3.3, is probably what we'd like to use. It makes
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gcc generate plain PC-relative calls to indicated functions, and directs
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the linker to resolve references to the given function within the link
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module.
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Unfortunately, as of debian binutils 2.13.90.0.16 at least, the
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resulting libmpir.so comes out with text segment relocations, references
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are not resolved at link time. If the gcc description is to be believed
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this is this not how it should work. If a symbol cannot be overridden
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by another module then surely references within that module can be
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resolved immediately (ie. at link time).
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Present
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In any case, all this means that we have no optimizations we can
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usefully make to function or variable usages, neither for assembler nor
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C code. Perhaps in the future the visibility attribute will work as
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we'd like.
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GLOBAL OFFSET TABLE
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The magic _GLOBAL_OFFSET_TABLE_ used by code establishing the address of the
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GOT sometimes requires an extra underscore prefix. SVR4 systems and NetBSD
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don't need a prefix, OpenBSD does need one. Note that NetBSD and OpenBSD
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are both a.out underscore systems, so the prefix for _GLOBAL_OFFSET_TABLE_
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is not simply the same as the prefix for ordinary globals.
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In any case in the asm code we write _GLOBAL_OFFSET_TABLE_ and let a macro
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in x86-defs.m4 add an extra underscore if required (according to a configure
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test).
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Old gas 1.92.3 which comes with FreeBSD 2.2.8 gets a segmentation fault when
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asked to assemble the following,
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L1:
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addl $_GLOBAL_OFFSET_TABLE_+[.-L1], %ebx
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It seems that using the label in the same instruction it refers to is the
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problem, since a nop in between works. But the simplest workaround is to
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follow gcc and omit the +[.-L1] since it does nothing,
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addl $_GLOBAL_OFFSET_TABLE_, %ebx
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Current gas 2.10 generates incorrect object code when %eax is used in such a
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construction (with or without +[.-L1]),
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addl $_GLOBAL_OFFSET_TABLE_, %eax
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The R_386_GOTPC gets a displacement of 2 rather than the 1 appropriate for
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the 1 byte opcode of "addl $n,%eax". The best workaround is just to use any
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other register, since then it's a two byte opcode+mod/rm. GCC for example
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always uses %ebx (which is needed for calls through the PLT).
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A similar problem occurs in an leal (again with or without a +[.-L1]),
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leal _GLOBAL_OFFSET_TABLE_(%edi), %ebx
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This time the R_386_GOTPC gets a displacement of 0 rather than the 2
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appropriate for the opcode and mod/rm, making this form unusable.
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SIMPLE LOOPS
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The overheads in setting up for an unrolled loop can mean that at small
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sizes a simple loop is faster. Making small sizes go fast is important,
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even if it adds a cycle or two to bigger sizes. To this end various
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routines choose between a simple loop and an unrolled loop according to
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operand size. The path to the simple loop, or to special case code for
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small sizes, is always as fast as possible.
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Adding a simple loop requires a conditional jump to choose between the
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simple and unrolled code. The size of a branch misprediction penalty
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affects whether a simple loop is worthwhile.
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The convention is for an m4 definition UNROLL_THRESHOLD to set the crossover
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point, with sizes < UNROLL_THRESHOLD using the simple loop, sizes >=
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UNROLL_THRESHOLD using the unrolled loop. If position independent code adds
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a couple of cycles to an unrolled loop setup, the threshold will vary with
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PIC or non-PIC. Something like the following is typical.
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deflit(UNROLL_THRESHOLD, ifdef(`PIC',10,8))
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There's no automated way to determine the threshold. Setting it to a small
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value and then to a big value makes it possible to measure the simple and
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unrolled loops each over a range of sizes, from which the crossover point
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can be determined. Alternately, just adjust the threshold up or down until
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there's no more speedups.
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UNROLLED LOOP CODING
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The x86 addressing modes allow a byte displacement of -128 to +127, making
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it possible to access 256 bytes, which is 64 limbs, without adjusting
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pointer registers within the loop. Dword sized displacements can be used
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too, but they increase code size, and unrolling to 64 ought to be enough.
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When unrolling to the full 64 limbs/loop, the limb at the top of the loop
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will have a displacement of -128, so pointers have to have a corresponding
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+128 added before entering the loop. When unrolling to 32 limbs/loop
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displacements 0 to 127 can be used with 0 at the top of the loop and no
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adjustment needed to the pointers.
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Where 64 limbs/loop is supported, the +128 adjustment is done only when 64
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limbs/loop is selected. Usually the gain in speed using 64 instead of 32 or
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16 is small, so support for 64 limbs/loop is generally only for comparison.
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COMPUTED JUMPS
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When working from least significant limb to most significant limb (most
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routines) the computed jump and pointer calculations in preparation for an
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unrolled loop are as follows.
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S = operand size in limbs
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N = number of limbs per loop (UNROLL_COUNT)
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L = log2 of unrolling (UNROLL_LOG2)
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M = mask for unrolling (UNROLL_MASK)
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C = code bytes per limb in the loop
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B = bytes per limb (4 for x86)
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computed jump (-S & M) * C + entrypoint
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subtract from pointers (-S & M) * B
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initial loop counter (S-1) >> L
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displacements 0 to B*(N-1)
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The loop counter is decremented at the end of each loop, and the looping
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stops when the decrement takes the counter to -1. The displacements are for
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the addressing accessing each limb, eg. a load with "movl disp(%ebx), %eax".
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Usually the multiply by "C" can be handled without an imul, using instead an
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leal, or a shift and subtract.
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When working from most significant to least significant limb (eg. mpn_lshift
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and mpn_copyd), the calculations change as follows.
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add to pointers (-S & M) * B
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displacements 0 to -B*(N-1)
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OLD GAS 1.92.3
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This version comes with FreeBSD 2.2.8 and has a couple of gremlins that
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affect GMP code.
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Firstly, an expression involving two forward references to labels comes out
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as zero. For example,
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addl $bar-foo, %eax
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foo:
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nop
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bar:
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This should lead to "addl $1, %eax", but it comes out as "addl $0, %eax".
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When only one forward reference is involved, it works correctly, as for
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example,
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foo:
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addl $bar-foo, %eax
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nop
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bar:
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Secondly, an expression involving two labels can't be used as the
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displacement for an leal. For example,
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foo:
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nop
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bar:
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leal bar-foo(%eax,%ebx,8), %ecx
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A slightly cryptic error is given, "Unimplemented segment type 0 in
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parse_operand". When only one label is used it's ok, and the label can be a
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forward reference too, as for example,
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leal foo(%eax,%ebx,8), %ecx
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nop
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foo:
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These problems only affect PIC computed jump calculations. The workarounds
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are just to do an leal without a displacement and then an addl, and to make
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sure the code is placed so that there's at most one forward reference in the
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addl.
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REFERENCES
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"Intel Architecture Software Developer's Manual", volumes 1, 2a, 2b, 3a, 3b,
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2006, order numbers 253665 through 253669. Available on-line,
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ftp://download.intel.com/design/Pentium4/manuals/25366518.pdf
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ftp://download.intel.com/design/Pentium4/manuals/25366618.pdf
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ftp://download.intel.com/design/Pentium4/manuals/25366718.pdf
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ftp://download.intel.com/design/Pentium4/manuals/25366818.pdf
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ftp://download.intel.com/design/Pentium4/manuals/25366918.pdf
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"System V Application Binary Interface", Unix System Laboratories Inc, 1992,
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published by Prentice Hall, ISBN 0-13-880410-9. And the "Intel386 Processor
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Supplement", AT&T, 1991, ISBN 0-13-877689-X. These have details of calling
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conventions and ELF shared library PIC coding. Versions of both available
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on-line,
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http://www.sco.com/developer/devspecs
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"Intel386 Family Binary Compatibility Specification 2", Intel Corporation,
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published by McGraw-Hill, 1991, ISBN 0-07-031219-2. (Same as the above 386
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ABI supplement.)
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----------------
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Local variables:
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mode: text
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fill-column: 76
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End:
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