205 lines
4.0 KiB
Perl
205 lines
4.0 KiB
Perl
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#!/usr/bin/env perl
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#
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# For Microsoft CL this is implemented as inline assembler. So that
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# even though this script can generate even Win32 code, we'll be
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# using it primarily to generate Win64 modules. Both IA-64 and AMD64
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# are supported...
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# pull APPLINK_MAX value from applink.c...
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$applink_c=$0;
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$applink_c=~s|[^/\\]+$||g;
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$applink_c.="applink.c";
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open(INPUT,$applink_c) || die "can't open $applink_c: $!";
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@max=grep {/APPLINK_MAX\s+(\d+)/} <INPUT>;
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close(INPUT);
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($#max==0) or die "can't find APPLINK_MAX in $applink_c";
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$max[0]=~/APPLINK_MAX\s+(\d+)/;
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$N=$1; # number of entries in OPENSSL_UplinkTable not including
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# OPENSSL_UplinkTable[0], which contains this value...
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# Idea is to fill the OPENSSL_UplinkTable with pointers to stubs
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# which invoke 'void OPENSSL_Uplink (ULONG_PTR *table,int index)';
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# and then dereference themselves. Latter shall result in endless
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# loop *unless* OPENSSL_Uplink does not replace 'table[index]' with
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# something else, e.g. as 'table[index]=unimplemented;'...
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$arg = shift;
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#( defined shift || open STDOUT,">$arg" ) || die "can't open $arg: $!";
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if ($arg =~ /win32n/) { ia32nasm(); }
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elsif ($arg =~ /win32/) { ia32masm(); }
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elsif ($arg =~ /coff/) { ia32gas(); }
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elsif ($arg =~ /win64i/ or $arg =~ /ia64/) { ia64ias(); }
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elsif ($arg =~ /win64a/ or $arg =~ /amd64/) { amd64masm(); }
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else { die "nonsense $arg"; }
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sub ia32gas() {
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print <<___;
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.text
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___
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for ($i=1;$i<=$N;$i++) {
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print <<___;
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.def .Lazy$i; .scl 3; .type 32; .endef
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.align 4
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.Lazy$i:
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pushl \$$i
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pushl \$_OPENSSL_UplinkTable
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call _OPENSSL_Uplink
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addl \$8,%esp
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jmp *(_OPENSSL_UplinkTable+4*$i)
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___
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}
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print <<___;
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.data
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.align 4
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.globl _OPENSSL_UplinkTable
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_OPENSSL_UplinkTable:
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.long $N
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___
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for ($i=1;$i<=$N;$i++) { print " .long .Lazy$i\n"; }
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}
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sub ia32masm() {
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print <<___;
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.386P
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.model FLAT
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_DATA SEGMENT
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PUBLIC _OPENSSL_UplinkTable
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_OPENSSL_UplinkTable DD $N ; amount of following entries
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___
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for ($i=1;$i<=$N;$i++) { print " DD FLAT:\$lazy$i\n"; }
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print <<___;
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_DATA ENDS
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_TEXT SEGMENT
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EXTRN _OPENSSL_Uplink:NEAR
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___
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for ($i=1;$i<=$N;$i++) {
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print <<___;
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ALIGN 4
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\$lazy$i PROC NEAR
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push $i
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push OFFSET FLAT:_OPENSSL_UplinkTable
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call _OPENSSL_Uplink
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add esp,8
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jmp DWORD PTR _OPENSSL_UplinkTable+4*$i
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\$lazy$i ENDP
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___
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}
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print <<___;
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ALIGN 4
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_TEXT ENDS
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END
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___
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}
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sub ia32nasm() {
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print <<___;
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SEGMENT .data
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GLOBAL _OPENSSL_UplinkTable
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_OPENSSL_UplinkTable DD $N ; amount of following entries
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___
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for ($i=1;$i<=$N;$i++) { print " DD \$lazy$i\n"; }
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print <<___;
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SEGMENT .text
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EXTERN _OPENSSL_Uplink
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___
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for ($i=1;$i<=$N;$i++) {
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print <<___;
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ALIGN 4
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\$lazy$i:
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push $i
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push _OPENSSL_UplinkTable
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call _OPENSSL_Uplink
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add esp,8
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jmp [_OPENSSL_UplinkTable+4*$i]
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___
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}
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print <<___;
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ALIGN 4
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END
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___
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}
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sub ia64ias () {
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local $V=8; # max number of args uplink functions may accept...
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print <<___;
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.data
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.global OPENSSL_UplinkTable#
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OPENSSL_UplinkTable: data8 $N // amount of following entries
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___
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for ($i=1;$i<=$N;$i++) { print " data8 \@fptr(lazy$i#)\n"; }
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print <<___;
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.size OPENSSL_UplinkTable,.-OPENSSL_UplinkTable#
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.text
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.global OPENSSL_Uplink#
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.type OPENSSL_Uplink#,\@function
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___
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for ($i=1;$i<=$N;$i++) {
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print <<___;
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.proc lazy$i
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lazy$i:
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{ .mii; alloc loc0=ar.pfs,$V,3,2,0
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mov loc1=b0
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addl loc2=\@ltoff(OPENSSL_UplinkTable#),gp };;
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{ .mmi; ld8 out0=[loc2]
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mov out1=$i };;
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{ .mib; adds loc2=8*$i,out0
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br.call.sptk.many b0=OPENSSL_Uplink# };;
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{ .mmi; ld8 r31=[loc2];;
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ld8 r30=[r31],8 };;
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{ .mii; ld8 gp=[r31]
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mov b6=r30
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mov b0=loc1 };;
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{ .mib; mov ar.pfs=loc0
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br.many b6 };;
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.endp lazy$i#
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___
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}
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}
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sub amd64masm() {
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print <<___;
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_DATA SEGMENT
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PUBLIC OPENSSL_UplinkTable
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OPENSSL_UplinkTable DQ $N
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___
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for ($i=1;$i<=$N;$i++) { print " DQ \$lazy$i\n"; }
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print <<___;
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_DATA ENDS
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_TEXT SEGMENT
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EXTERN OPENSSL_Uplink:PROC
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___
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for ($i=1;$i<=$N;$i++) {
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print <<___;
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ALIGN 4
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\$lazy$i PROC
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push r9
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push r8
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push rdx
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push rcx
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sub rsp,40
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lea rcx,OFFSET OPENSSL_UplinkTable
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mov rdx,$i
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call OPENSSL_Uplink
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add rsp,40
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pop rcx
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pop rdx
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pop r8
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pop r9
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jmp QWORD PTR OPENSSL_UplinkTable+8*$i
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\$lazy$i ENDP
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___
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}
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print <<___;
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_TEXT ENDS
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END
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___
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}
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