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132 lines
5.7 KiB
Plaintext
132 lines
5.7 KiB
Plaintext
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First up, let me say I don't like writing in assembler. It is not portable,
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dependant on the particular CPU architecture release and is generally a pig
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to debug and get right. Having said that, the x86 architecture is probably
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the most important for speed due to number of boxes and since
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it appears to be the worst architecture to to get
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good C compilers for. So due to this, I have lowered myself to do
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assembler for the inner DES routines in libdes :-).
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The file to implement in assembler is des_enc.c. Replace the following
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4 functions
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des_encrypt1(DES_LONG data[2],des_key_schedule ks, int encrypt);
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des_encrypt2(DES_LONG data[2],des_key_schedule ks, int encrypt);
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des_encrypt3(DES_LONG data[2],des_key_schedule ks1,ks2,ks3);
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des_decrypt3(DES_LONG data[2],des_key_schedule ks1,ks2,ks3);
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They encrypt/decrypt the 64 bits held in 'data' using
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the 'ks' key schedules. The only difference between the 4 functions is that
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des_encrypt2() does not perform IP() or FP() on the data (this is an
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optimization for when doing triple DES and des_encrypt3() and des_decrypt3()
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perform triple des. The triple DES routines are in here because it does
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make a big difference to have them located near the des_encrypt2 function
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at link time..
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Now as we all know, there are lots of different operating systems running on
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x86 boxes, and unfortunately they normally try to make sure their assembler
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formating is not the same as the other peoples.
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The 4 main formats I know of are
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Microsoft Windows 95/Windows NT
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Elf Includes Linux and FreeBSD(?).
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a.out The older Linux.
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Solaris Same as Elf but different comments :-(.
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Now I was not overly keen to write 4 different copies of the same code,
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so I wrote a few perl routines to output the correct assembler, given
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a target assembler type. This code is ugly and is just a hack.
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The libraries are x86unix.pl and x86ms.pl.
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des586.pl, des686.pl and des-som[23].pl are the programs to actually
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generate the assembler.
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So to generate elf assembler
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perl des-som3.pl elf >dx86-elf.s
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For Windows 95/NT
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perl des-som2.pl win32 >win32.asm
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[ update 4 Jan 1996 ]
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I have added another way to do things.
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perl des-som3.pl cpp >dx86-cpp.s
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generates a file that will be included by dx86unix.cpp when it is compiled.
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To build for elf, a.out, solaris, bsdi etc,
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cc -E -DELF asm/dx86unix.cpp | as -o asm/dx86-elf.o
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cc -E -DSOL asm/dx86unix.cpp | as -o asm/dx86-sol.o
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cc -E -DOUT asm/dx86unix.cpp | as -o asm/dx86-out.o
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cc -E -DBSDI asm/dx86unix.cpp | as -o asm/dx86bsdi.o
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This was done to cut down the number of files in the distribution.
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Now the ugly part. I acquired my copy of Intels
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"Optimization's For Intel's 32-Bit Processors" and found a few interesting
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things. First, the aim of the exersize is to 'extract' one byte at a time
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from a word and do an array lookup. This involves getting the byte from
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the 4 locations in the word and moving it to a new word and doing the lookup.
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The most obvious way to do this is
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xor eax, eax # clear word
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movb al, cl # get low byte
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xor edi DWORD PTR 0x100+des_SP[eax] # xor in word
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movb al, ch # get next byte
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xor edi DWORD PTR 0x300+des_SP[eax] # xor in word
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shr ecx 16
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which seems ok. For the pentium, this system appears to be the best.
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One has to do instruction interleaving to keep both functional units
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operating, but it is basically very efficient.
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Now the crunch. When a full register is used after a partial write, eg.
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mov al, cl
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xor edi, DWORD PTR 0x100+des_SP[eax]
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386 - 1 cycle stall
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486 - 1 cycle stall
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586 - 0 cycle stall
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686 - at least 7 cycle stall (page 22 of the above mentioned document).
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So the technique that produces the best results on a pentium, according to
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the documentation, will produce hideous results on a pentium pro.
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To get around this, des686.pl will generate code that is not as fast on
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a pentium, should be very good on a pentium pro.
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mov eax, ecx # copy word
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shr ecx, 8 # line up next byte
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and eax, 0fch # mask byte
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xor edi DWORD PTR 0x100+des_SP[eax] # xor in array lookup
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mov eax, ecx # get word
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shr ecx 8 # line up next byte
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and eax, 0fch # mask byte
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xor edi DWORD PTR 0x300+des_SP[eax] # xor in array lookup
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Due to the execution units in the pentium, this actually works quite well.
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For a pentium pro it should be very good. This is the type of output
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Visual C++ generates.
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There is a third option. instead of using
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mov al, ch
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which is bad on the pentium pro, one may be able to use
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movzx eax, ch
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which may not incur the partial write penalty. On the pentium,
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this instruction takes 4 cycles so is not worth using but on the
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pentium pro it appears it may be worth while. I need access to one to
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experiment :-).
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eric (20 Oct 1996)
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22 Nov 1996 - I have asked people to run the 2 different version on pentium
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pros and it appears that the intel documentation is wrong. The
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mov al,bh is still faster on a pentium pro, so just use the des586.pl
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install des686.pl
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3 Dec 1996 - I added des_encrypt3/des_decrypt3 because I have moved these
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functions into des_enc.c because it does make a massive performance
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difference on some boxes to have the functions code located close to
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the des_encrypt2() function.
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9 Jan 1997 - des-som2.pl is now the correct perl script to use for
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pentiums. It contains an inner loop from
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Svend Olaf Mikkelsen <svolaf@inet.uni-c.dk> which does raw ecb DES calls at
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273,000 per second. He had a previous version at 250,000 and the best
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I was able to get was 203,000. The content has not changed, this is all
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due to instruction sequencing (and actual instructions choice) which is able
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to keep both functional units of the pentium going.
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We may have lost the ugly register usage restrictions when x86 went 32 bit
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but for the pentium it has been replaced by evil instruction ordering tricks.
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13 Jan 1997 - des-som3.pl, more optimizations from Svend Olaf.
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raw DES at 281,000 per second on a pentium 100.
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